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|
/*
* $Id: synclinkmp.c,v 4.38 2005/07/15 13:29:44 paulkf Exp $
*
* Device driver for Microgate SyncLink Multiport
* high speed multiprotocol serial adapter.
*
* written by Paul Fulghum for Microgate Corporation
* paulkf@microgate.com
*
* Microgate and SyncLink are trademarks of Microgate Corporation
*
* Derived from serial.c written by Theodore Ts'o and Linus Torvalds
* This code is released under the GNU General Public License (GPL)
*
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
* OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#define VERSION(ver,rel,seq) (((ver)<<16) | ((rel)<<8) | (seq))
#if defined(__i386__)
# define BREAKPOINT() asm(" int $3");
#else
# define BREAKPOINT() { }
#endif
#define MAX_DEVICES 12
#include <linux/config.h>
#include <linux/module.h>
#include <linux/errno.h>
#include <linux/signal.h>
#include <linux/sched.h>
#include <linux/timer.h>
#include <linux/interrupt.h>
#include <linux/pci.h>
#include <linux/tty.h>
#include <linux/tty_flip.h>
#include <linux/serial.h>
#include <linux/major.h>
#include <linux/string.h>
#include <linux/fcntl.h>
#include <linux/ptrace.h>
#include <linux/ioport.h>
#include <linux/mm.h>
#include <linux/slab.h>
#include <linux/netdevice.h>
#include <linux/vmalloc.h>
#include <linux/init.h>
#include <linux/delay.h>
#include <linux/ioctl.h>
#include <asm/system.h>
#include <asm/io.h>
#include <asm/irq.h>
#include <asm/dma.h>
#include <linux/bitops.h>
#include <asm/types.h>
#include <linux/termios.h>
#include <linux/workqueue.h>
#include <linux/hdlc.h>
#ifdef CONFIG_HDLC_MODULE
#define CONFIG_HDLC 1
#endif
#define GET_USER(error,value,addr) error = get_user(value,addr)
#define COPY_FROM_USER(error,dest,src,size) error = copy_from_user(dest,src,size) ? -EFAULT : 0
#define PUT_USER(error,value,addr) error = put_user(value,addr)
#define COPY_TO_USER(error,dest,src,size) error = copy_to_user(dest,src,size) ? -EFAULT : 0
#include <asm/uaccess.h>
#include "linux/synclink.h"
static MGSL_PARAMS default_params = {
MGSL_MODE_HDLC, /* unsigned long mode */
0, /* unsigned char loopback; */
HDLC_FLAG_UNDERRUN_ABORT15, /* unsigned short flags; */
HDLC_ENCODING_NRZI_SPACE, /* unsigned char encoding; */
0, /* unsigned long clock_speed; */
0xff, /* unsigned char addr_filter; */
HDLC_CRC_16_CCITT, /* unsigned short crc_type; */
HDLC_PREAMBLE_LENGTH_8BITS, /* unsigned char preamble_length; */
HDLC_PREAMBLE_PATTERN_NONE, /* unsigned char preamble; */
9600, /* unsigned long data_rate; */
8, /* unsigned char data_bits; */
1, /* unsigned char stop_bits; */
ASYNC_PARITY_NONE /* unsigned char parity; */
};
/* size in bytes of DMA data buffers */
#define SCABUFSIZE 1024
#define SCA_MEM_SIZE 0x40000
#define SCA_BASE_SIZE 512
#define SCA_REG_SIZE 16
#define SCA_MAX_PORTS 4
#define SCAMAXDESC 128
#define BUFFERLISTSIZE 4096
/* SCA-I style DMA buffer descriptor */
typedef struct _SCADESC
{
u16 next; /* lower l6 bits of next descriptor addr */
u16 buf_ptr; /* lower 16 bits of buffer addr */
u8 buf_base; /* upper 8 bits of buffer addr */
u8 pad1;
u16 length; /* length of buffer */
u8 status; /* status of buffer */
u8 pad2;
} SCADESC, *PSCADESC;
typedef struct _SCADESC_EX
{
/* device driver bookkeeping section */
char *virt_addr; /* virtual address of data buffer */
u16 phys_entry; /* lower 16-bits of physical address of this descriptor */
} SCADESC_EX, *PSCADESC_EX;
/* The queue of BH actions to be performed */
#define BH_RECEIVE 1
#define BH_TRANSMIT 2
#define BH_STATUS 4
#define IO_PIN_SHUTDOWN_LIMIT 100
#define RELEVANT_IFLAG(iflag) (iflag & (IGNBRK|BRKINT|IGNPAR|PARMRK|INPCK))
struct _input_signal_events {
int ri_up;
int ri_down;
int dsr_up;
int dsr_down;
int dcd_up;
int dcd_down;
int cts_up;
int cts_down;
};
/*
* Device instance data structure
*/
typedef struct _synclinkmp_info {
void *if_ptr; /* General purpose pointer (used by SPPP) */
int magic;
int flags;
int count; /* count of opens */
int line;
unsigned short close_delay;
unsigned short closing_wait; /* time to wait before closing */
struct mgsl_icount icount;
struct tty_struct *tty;
int timeout;
int x_char; /* xon/xoff character */
int blocked_open; /* # of blocked opens */
u16 read_status_mask1; /* break detection (SR1 indications) */
u16 read_status_mask2; /* parity/framing/overun (SR2 indications) */
unsigned char ignore_status_mask1; /* break detection (SR1 indications) */
unsigned char ignore_status_mask2; /* parity/framing/overun (SR2 indications) */
unsigned char *tx_buf;
int tx_put;
int tx_get;
int tx_count;
wait_queue_head_t open_wait;
wait_queue_head_t close_wait;
wait_queue_head_t status_event_wait_q;
wait_queue_head_t event_wait_q;
struct timer_list tx_timer; /* HDLC transmit timeout timer */
struct _synclinkmp_info *next_device; /* device list link */
struct timer_list status_timer; /* input signal status check timer */
spinlock_t lock; /* spinlock for synchronizing with ISR */
struct work_struct task; /* task structure for scheduling bh */
u32 max_frame_size; /* as set by device config */
u32 pending_bh;
int bh_running; /* Protection from multiple */
int isr_overflow;
int bh_requested;
int dcd_chkcount; /* check counts to prevent */
int cts_chkcount; /* too many IRQs if a signal */
int dsr_chkcount; /* is floating */
int ri_chkcount;
char *buffer_list; /* virtual address of Rx & Tx buffer lists */
unsigned long buffer_list_phys;
unsigned int rx_buf_count; /* count of total allocated Rx buffers */
SCADESC *rx_buf_list; /* list of receive buffer entries */
SCADESC_EX rx_buf_list_ex[SCAMAXDESC]; /* list of receive buffer entries */
unsigned int current_rx_buf;
unsigned int tx_buf_count; /* count of total allocated Tx buffers */
SCADESC *tx_buf_list; /* list of transmit buffer entries */
SCADESC_EX tx_buf_list_ex[SCAMAXDESC]; /* list of transmit buffer entries */
unsigned int last_tx_buf;
unsigned char *tmp_rx_buf;
unsigned int tmp_rx_buf_count;
int rx_enabled;
int rx_overflow;
int tx_enabled;
int tx_active;
u32 idle_mode;
unsigned char ie0_value;
unsigned char ie1_value;
unsigned char ie2_value;
unsigned char ctrlreg_value;
unsigned char old_signals;
char device_name[25]; /* device instance name */
int port_count;
int adapter_num;
int port_num;
struct _synclinkmp_info *port_array[SCA_MAX_PORTS];
unsigned int bus_type; /* expansion bus type (ISA,EISA,PCI) */
unsigned int irq_level; /* interrupt level */
unsigned long irq_flags;
int irq_requested; /* nonzero if IRQ requested */
MGSL_PARAMS params; /* communications parameters */
unsigned char serial_signals; /* current serial signal states */
int irq_occurred; /* for diagnostics use */
unsigned int init_error; /* Initialization startup error */
u32 last_mem_alloc;
unsigned char* memory_base; /* shared memory address (PCI only) */
u32 phys_memory_base;
int shared_mem_requested;
unsigned char* sca_base; /* HD64570 SCA Memory address */
u32 phys_sca_base;
u32 sca_offset;
int sca_base_requested;
unsigned char* lcr_base; /* local config registers (PCI only) */
u32 phys_lcr_base;
u32 lcr_offset;
int lcr_mem_requested;
unsigned char* statctrl_base; /* status/control register memory */
u32 phys_statctrl_base;
u32 statctrl_offset;
int sca_statctrl_requested;
u32 misc_ctrl_value;
char flag_buf[MAX_ASYNC_BUFFER_SIZE];
char char_buf[MAX_ASYNC_BUFFER_SIZE];
BOOLEAN drop_rts_on_tx_done;
struct _input_signal_events input_signal_events;
/* SPPP/Cisco HDLC device parts */
int netcount;
int dosyncppp;
spinlock_t netlock;
#ifdef CONFIG_HDLC
struct net_device *netdev;
#endif
} SLMP_INFO;
#define MGSL_MAGIC 0x5401
/*
* define serial signal status change macros
*/
#define MISCSTATUS_DCD_LATCHED (SerialSignal_DCD<<8) /* indicates change in DCD */
#define MISCSTATUS_RI_LATCHED (SerialSignal_RI<<8) /* indicates change in RI */
#define MISCSTATUS_CTS_LATCHED (SerialSignal_CTS<<8) /* indicates change in CTS */
#define MISCSTATUS_DSR_LATCHED (SerialSignal_DSR<<8) /* change in DSR */
/* Common Register macros */
#define LPR 0x00
#define PABR0 0x02
#define PABR1 0x03
#define WCRL 0x04
#define WCRM 0x05
#define WCRH 0x06
#define DPCR 0x08
#define DMER 0x09
#define ISR0 0x10
#define ISR1 0x11
#define ISR2 0x12
#define IER0 0x14
#define IER1 0x15
#define IER2 0x16
#define ITCR 0x18
#define INTVR 0x1a
#define IMVR 0x1c
/* MSCI Register macros */
#define TRB 0x20
#define TRBL 0x20
#define TRBH 0x21
#define SR0 0x22
#define SR1 0x23
#define SR2 0x24
#define SR3 0x25
#define FST 0x26
#define IE0 0x28
#define IE1 0x29
#define IE2 0x2a
#define FIE 0x2b
#define CMD 0x2c
#define MD0 0x2e
#define MD1 0x2f
#define MD2 0x30
#define CTL 0x31
#define SA0 0x32
#define SA1 0x33
#define IDL 0x34
#define TMC 0x35
#define RXS 0x36
#define TXS 0x37
#define TRC0 0x38
#define TRC1 0x39
#define RRC 0x3a
#define CST0 0x3c
#define CST1 0x3d
/* Timer Register Macros */
#define TCNT 0x60
#define TCNTL 0x60
#define TCNTH 0x61
#define TCONR 0x62
#define TCONRL 0x62
#define TCONRH 0x63
#define TMCS 0x64
#define TEPR 0x65
/* DMA Controller Register macros */
#define DARL 0x80
#define DARH 0x81
#define DARB 0x82
#define BAR 0x80
#define BARL 0x80
#define BARH 0x81
#define BARB 0x82
#define SAR 0x84
#define SARL 0x84
#define SARH 0x85
#define SARB 0x86
#define CPB 0x86
#define CDA 0x88
#define CDAL 0x88
#define CDAH 0x89
#define EDA 0x8a
#define EDAL 0x8a
#define EDAH 0x8b
#define BFL 0x8c
#define BFLL 0x8c
#define BFLH 0x8d
#define BCR 0x8e
#define BCRL 0x8e
#define BCRH 0x8f
#define DSR 0x90
#define DMR 0x91
#define FCT 0x93
#define DIR 0x94
#define DCMD 0x95
/* combine with timer or DMA register address */
#define TIMER0 0x00
#define TIMER1 0x08
#define TIMER2 0x10
#define TIMER3 0x18
#define RXDMA 0x00
#define TXDMA 0x20
/* SCA Command Codes */
#define NOOP 0x00
#define TXRESET 0x01
#define TXENABLE 0x02
#define TXDISABLE 0x03
#define TXCRCINIT 0x04
#define TXCRCEXCL 0x05
#define TXEOM 0x06
#define TXABORT 0x07
#define MPON 0x08
#define TXBUFCLR 0x09
#define RXRESET 0x11
#define RXENABLE 0x12
#define RXDISABLE 0x13
#define RXCRCINIT 0x14
#define RXREJECT 0x15
#define SEARCHMP 0x16
#define RXCRCEXCL 0x17
#define RXCRCCALC 0x18
#define CHRESET 0x21
#define HUNT 0x31
/* DMA command codes */
#define SWABORT 0x01
#define FEICLEAR 0x02
/* IE0 */
#define TXINTE BIT7
#define RXINTE BIT6
#define TXRDYE BIT1
#define RXRDYE BIT0
/* IE1 & SR1 */
#define UDRN BIT7
#define IDLE BIT6
#define SYNCD BIT4
#define FLGD BIT4
#define CCTS BIT3
#define CDCD BIT2
#define BRKD BIT1
#define ABTD BIT1
#define GAPD BIT1
#define BRKE BIT0
#define IDLD BIT0
/* IE2 & SR2 */
#define EOM BIT7
#define PMP BIT6
#define SHRT BIT6
#define PE BIT5
#define ABT BIT5
#define FRME BIT4
#define RBIT BIT4
#define OVRN BIT3
#define CRCE BIT2
/*
* Global linked list of SyncLink devices
*/
static SLMP_INFO *synclinkmp_device_list = NULL;
static int synclinkmp_adapter_count = -1;
static int synclinkmp_device_count = 0;
/*
* Set this param to non-zero to load eax with the
* .text section address and breakpoint on module load.
* This is useful for use with gdb and add-symbol-file command.
*/
static int break_on_load=0;
/*
* Driver major number, defaults to zero to get auto
* assigned major number. May be forced as module parameter.
*/
static int ttymajor=0;
/*
* Array of user specified options for ISA adapters.
*/
static int debug_level = 0;
static int maxframe[MAX_DEVICES] = {0,};
static int dosyncppp[MAX_DEVICES] = {0,};
module_param(break_on_load, bool, 0);
module_param(ttymajor, int, 0);
module_param(debug_level, int, 0);
module_param_array(maxframe, int, NULL, 0);
module_param_array(dosyncppp, int, NULL, 0);
static char *driver_name = "SyncLink MultiPort driver";
static char *driver_version = "$Revision: 4.38 $";
static int synclinkmp_init_one(struct pci_dev *dev,const struct pci_device_id *ent);
static void synclinkmp_remove_one(struct pci_dev *dev);
static struct pci_device_id synclinkmp_pci_tbl[] = {
{ PCI_VENDOR_ID_MICROGATE, PCI_DEVICE_ID_MICROGATE_SCA, PCI_ANY_ID, PCI_ANY_ID, },
{ 0, }, /* terminate list */
};
MODULE_DEVICE_TABLE(pci, synclinkmp_pci_tbl);
MODULE_LICENSE("GPL");
static struct pci_driver synclinkmp_pci_driver = {
.name = "synclinkmp",
.id_table = synclinkmp_pci_tbl,
.probe = synclinkmp_init_one,
.remove = __devexit_p(synclinkmp_remove_one),
};
static struct tty_driver *serial_driver;
/* number of characters left in xmit buffer before we ask for more */
#define WAKEUP_CHARS 256
/* tty callbacks */
static int open(struct tty_struct *tty, struct file * filp);
static void close(struct tty_struct *tty, struct file * filp);
static void hangup(struct tty_struct *tty);
static void set_termios(struct tty_struct *tty, struct termios *old_termios);
static int write(struct tty_struct *tty, const unsigned char *buf, int count);
static void put_char(struct tty_struct *tty, unsigned char ch);
static void send_xchar(struct tty_struct *tty, char ch);
static void wait_until_sent(struct tty_struct *tty, int timeout);
static int write_room(struct tty_struct *tty);
static void flush_chars(struct tty_struct *tty);
static void flush_buffer(struct tty_struct *tty);
static void tx_hold(struct tty_struct *tty);
static void tx_release(struct tty_struct *tty);
static int ioctl(struct tty_struct *tty, struct file *file, unsigned int cmd, unsigned long arg);
static int read_proc(char *page, char **start, off_t off, int count,int *eof, void *data);
static int chars_in_buffer(struct tty_struct *tty);
static void throttle(struct tty_struct * tty);
static void unthrottle(struct tty_struct * tty);
static void set_break(struct tty_struct *tty, int break_state);
#ifdef CONFIG_HDLC
#define dev_to_port(D) (dev_to_hdlc(D)->priv)
static void hdlcdev_tx_done(SLMP_INFO *info);
static void hdlcdev_rx(SLMP_INFO *info, char *buf, int size);
static int hdlcdev_init(SLMP_INFO *info);
static void hdlcdev_exit(SLMP_INFO *info);
#endif
/* ioctl handlers */
static int get_stats(SLMP_INFO *info, struct mgsl_icount __user *user_icount);
static int get_params(SLMP_INFO *info, MGSL_PARAMS __user *params);
static int set_params(SLMP_INFO *info, MGSL_PARAMS __user *params);
static int get_txidle(SLMP_INFO *info, int __user *idle_mode);
static int set_txidle(SLMP_INFO *info, int idle_mode);
static int tx_enable(SLMP_INFO *info, int enable);
static int tx_abort(SLMP_INFO *info);
static int rx_enable(SLMP_INFO *info, int enable);
static int modem_input_wait(SLMP_INFO *info,int arg);
static int wait_mgsl_event(SLMP_INFO *info, int __user *mask_ptr);
static int tiocmget(struct tty_struct *tty, struct file *file);
static int tiocmset(struct tty_struct *tty, struct file *file,
unsigned int set, unsigned int clear);
static void set_break(struct tty_struct *tty, int break_state);
static void add_device(SLMP_INFO *info);
static void device_init(int adapter_num, struct pci_dev *pdev);
static int claim_resources(SLMP_INFO *info);
static void release_resources(SLMP_INFO *info);
static int startup(SLMP_INFO *info);
static int block_til_ready(struct tty_struct *tty, struct file * filp,SLMP_INFO *info);
static void shutdown(SLMP_INFO *info);
static void program_hw(SLMP_INFO *info);
static void change_params(SLMP_INFO *info);
static int init_adapter(SLMP_INFO *info);
static int register_test(SLMP_INFO *info);
static int irq_test(SLMP_INFO *info);
static int loopback_test(SLMP_INFO *info);
static int adapter_test(SLMP_INFO *info);
static int memory_test(SLMP_INFO *info);
static void reset_adapter(SLMP_INFO *info);
static void reset_port(SLMP_INFO *info);
static void async_mode(SLMP_INFO *info);
static void hdlc_mode(SLMP_INFO *info);
static void rx_stop(SLMP_INFO *info);
static void rx_start(SLMP_INFO *info);
static void rx_reset_buffers(SLMP_INFO *info);
static void rx_free_frame_buffers(SLMP_INFO *info, unsigned int first, unsigned int last);
static int rx_get_frame(SLMP_INFO *info);
static void tx_start(SLMP_INFO *info);
static void tx_stop(SLMP_INFO *info);
static void tx_load_fifo(SLMP_INFO *info);
static void tx_set_idle(SLMP_INFO *info);
static void tx_load_dma_buffer(SLMP_INFO *info, const char *buf, unsigned int count);
static void get_signals(SLMP_INFO *info);
static void set_signals(SLMP_INFO *info);
static void enable_loopback(SLMP_INFO *info, int enable);
static void set_rate(SLMP_INFO *info, u32 data_rate);
static int bh_action(SLMP_INFO *info);
static void bh_handler(void* Context);
static void bh_receive(SLMP_INFO *info);
static void bh_transmit(SLMP_INFO *info);
static void bh_status(SLMP_INFO *info);
static void isr_timer(SLMP_INFO *info);
static void isr_rxint(SLMP_INFO *info);
static void isr_rxrdy(SLMP_INFO *info);
static void isr_txint(SLMP_INFO *info);
static void isr_txrdy(SLMP_INFO *info);
static void isr_rxdmaok(SLMP_INFO *info);
static void isr_rxdmaerror(SLMP_INFO *info);
static void isr_txdmaok(SLMP_INFO *info);
static void isr_txdmaerror(SLMP_INFO *info);
static void isr_io_pin(SLMP_INFO *info, u16 status);
static int alloc_dma_bufs(SLMP_INFO *info);
static void free_dma_bufs(SLMP_INFO *info);
static int alloc_buf_list(SLMP_INFO *info);
static int alloc_frame_bufs(SLMP_INFO *info, SCADESC *list, SCADESC_EX *list_ex,int count);
static int alloc_tmp_rx_buf(SLMP_INFO *info);
static void free_tmp_rx_buf(SLMP_INFO *info);
static void load_pci_memory(SLMP_INFO *info, char* dest, const char* src, unsigned short count);
static void trace_block(SLMP_INFO *info, const char* data, int count, int xmit);
static void tx_timeout(unsigned long context);
static void status_timeout(unsigned long context);
static unsigned char read_reg(SLMP_INFO *info, unsigned char addr);
static void write_reg(SLMP_INFO *info, unsigned char addr, unsigned char val);
static u16 read_reg16(SLMP_INFO *info, unsigned char addr);
static void write_reg16(SLMP_INFO *info, unsigned char addr, u16 val);
static unsigned char read_status_reg(SLMP_INFO * info);
static void write_control_reg(SLMP_INFO * info);
static unsigned char rx_active_fifo_level = 16; // rx request FIFO activation level in bytes
static unsigned char tx_active_fifo_level = 16; // tx request FIFO activation level in bytes
static unsigned char tx_negate_fifo_level = 32; // tx request FIFO negation level in bytes
static u32 misc_ctrl_value = 0x007e4040;
static u32 lcr1_brdr_value = 0x00800029;
static u32 read_ahead_count = 8;
/* DPCR, DMA Priority Control
*
* 07..05 Not used, must be 0
* 04 BRC, bus release condition: 0=all transfers complete
* 1=release after 1 xfer on all channels
* 03 CCC, channel change condition: 0=every cycle
* 1=after each channel completes all xfers
* 02..00 PR<2..0>, priority 100=round robin
*
* 00000100 = 0x00
*/
static unsigned char dma_priority = 0x04;
// Number of bytes that can be written to shared RAM
// in a single write operation
static u32 sca_pci_load_interval = 64;
/*
* 1st function defined in .text section. Calling this function in
* init_module() followed by a breakpoint allows a remote debugger
* (gdb) to get the .text address for the add-symbol-file command.
* This allows remote debugging of dynamically loadable modules.
*/
static void* synclinkmp_get_text_ptr(void);
static void* synclinkmp_get_text_ptr(void) {return synclinkmp_get_text_ptr;}
static inline int sanity_check(SLMP_INFO *info,
char *name, const char *routine)
{
#ifdef SANITY_CHECK
static const char *badmagic =
"Warning: bad magic number for synclinkmp_struct (%s) in %s\n";
static const char *badinfo =
"Warning: null synclinkmp_struct for (%s) in %s\n";
if (!info) {
printk(badinfo, name, routine);
return 1;
}
if (info->magic != MGSL_MAGIC) {
printk(badmagic, name, routine);
return 1;
}
#else
if (!info)
return 1;
#endif
return 0;
}
/**
* line discipline callback wrappers
*
* The wrappers maintain line discipline references
* while calling into the line discipline.
*
* ldisc_receive_buf - pass receive data to line discipline
*/
static void ldisc_receive_buf(struct tty_struct *tty,
const __u8 *data, char *flags, int count)
{
struct tty_ldisc *ld;
if (!tty)
return;
ld = tty_ldisc_ref(tty);
if (ld) {
if (ld->receive_buf)
ld->receive_buf(tty, data, flags, count);
tty_ldisc_deref(ld);
}
}
/* tty callbacks */
/* Called when a port is opened. Init and enable port.
*/
static int open(struct tty_struct *tty, struct file *filp)
{
SLMP_INFO *info;
int retval, line;
unsigned long flags;
line = tty->index;
if ((line < 0) || (line >= synclinkmp_device_count)) {
printk("%s(%d): open with invalid line #%d.\n",
__FILE__,__LINE__,line);
return -ENODEV;
}
info = synclinkmp_device_list;
while(info && info->line != line)
info = info->next_device;
if (sanity_check(info, tty->name, "open"))
return -ENODEV;
if ( info->init_error ) {
printk("%s(%d):%s device is not allocated, init error=%d\n",
__FILE__,__LINE__,info->device_name,info->init_error);
return -ENODEV;
}
tty->driver_data = info;
info->tty = tty;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s open(), old ref count = %d\n",
__FILE__,__LINE__,tty->driver->name, info->count);
/* If port is closing, signal caller to try again */
if (tty_hung_up_p(filp) || info->flags & ASYNC_CLOSING){
if (info->flags & ASYNC_CLOSING)
interruptible_sleep_on(&info->close_wait);
retval = ((info->flags & ASYNC_HUP_NOTIFY) ?
-EAGAIN : -ERESTARTSYS);
goto cleanup;
}
info->tty->low_latency = (info->flags & ASYNC_LOW_LATENCY) ? 1 : 0;
spin_lock_irqsave(&info->netlock, flags);
if (info->netcount) {
retval = -EBUSY;
spin_unlock_irqrestore(&info->netlock, flags);
goto cleanup;
}
info->count++;
spin_unlock_irqrestore(&info->netlock, flags);
if (info->count == 1) {
/* 1st open on this device, init hardware */
retval = startup(info);
if (retval < 0)
goto cleanup;
}
retval = block_til_ready(tty, filp, info);
if (retval) {
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s block_til_ready() returned %d\n",
__FILE__,__LINE__, info->device_name, retval);
goto cleanup;
}
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s open() success\n",
__FILE__,__LINE__, info->device_name);
retval = 0;
cleanup:
if (retval) {
if (tty->count == 1)
info->tty = NULL; /* tty layer will release tty struct */
if(info->count)
info->count--;
}
return retval;
}
/* Called when port is closed. Wait for remaining data to be
* sent. Disable port and free resources.
*/
static void close(struct tty_struct *tty, struct file *filp)
{
SLMP_INFO * info = (SLMP_INFO *)tty->driver_data;
if (sanity_check(info, tty->name, "close"))
return;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s close() entry, count=%d\n",
__FILE__,__LINE__, info->device_name, info->count);
if (!info->count)
return;
if (tty_hung_up_p(filp))
goto cleanup;
if ((tty->count == 1) && (info->count != 1)) {
/*
* tty->count is 1 and the tty structure will be freed.
* info->count should be one in this case.
* if it's not, correct it so that the port is shutdown.
*/
printk("%s(%d):%s close: bad refcount; tty->count is 1, "
"info->count is %d\n",
__FILE__,__LINE__, info->device_name, info->count);
info->count = 1;
}
info->count--;
/* if at least one open remaining, leave hardware active */
if (info->count)
goto cleanup;
info->flags |= ASYNC_CLOSING;
/* set tty->closing to notify line discipline to
* only process XON/XOFF characters. Only the N_TTY
* discipline appears to use this (ppp does not).
*/
tty->closing = 1;
/* wait for transmit data to clear all layers */
if (info->closing_wait != ASYNC_CLOSING_WAIT_NONE) {
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s close() calling tty_wait_until_sent\n",
__FILE__,__LINE__, info->device_name );
tty_wait_until_sent(tty, info->closing_wait);
}
if (info->flags & ASYNC_INITIALIZED)
wait_until_sent(tty, info->timeout);
if (tty->driver->flush_buffer)
tty->driver->flush_buffer(tty);
tty_ldisc_flush(tty);
shutdown(info);
tty->closing = 0;
info->tty = NULL;
if (info->blocked_open) {
if (info->close_delay) {
msleep_interruptible(jiffies_to_msecs(info->close_delay));
}
wake_up_interruptible(&info->open_wait);
}
info->flags &= ~(ASYNC_NORMAL_ACTIVE|ASYNC_CLOSING);
wake_up_interruptible(&info->close_wait);
cleanup:
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s close() exit, count=%d\n", __FILE__,__LINE__,
tty->driver->name, info->count);
}
/* Called by tty_hangup() when a hangup is signaled.
* This is the same as closing all open descriptors for the port.
*/
static void hangup(struct tty_struct *tty)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s hangup()\n",
__FILE__,__LINE__, info->device_name );
if (sanity_check(info, tty->name, "hangup"))
return;
flush_buffer(tty);
shutdown(info);
info->count = 0;
info->flags &= ~ASYNC_NORMAL_ACTIVE;
info->tty = NULL;
wake_up_interruptible(&info->open_wait);
}
/* Set new termios settings
*/
static void set_termios(struct tty_struct *tty, struct termios *old_termios)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s set_termios()\n", __FILE__,__LINE__,
tty->driver->name );
/* just return if nothing has changed */
if ((tty->termios->c_cflag == old_termios->c_cflag)
&& (RELEVANT_IFLAG(tty->termios->c_iflag)
== RELEVANT_IFLAG(old_termios->c_iflag)))
return;
change_params(info);
/* Handle transition to B0 status */
if (old_termios->c_cflag & CBAUD &&
!(tty->termios->c_cflag & CBAUD)) {
info->serial_signals &= ~(SerialSignal_RTS + SerialSignal_DTR);
spin_lock_irqsave(&info->lock,flags);
set_signals(info);
spin_unlock_irqrestore(&info->lock,flags);
}
/* Handle transition away from B0 status */
if (!(old_termios->c_cflag & CBAUD) &&
tty->termios->c_cflag & CBAUD) {
info->serial_signals |= SerialSignal_DTR;
if (!(tty->termios->c_cflag & CRTSCTS) ||
!test_bit(TTY_THROTTLED, &tty->flags)) {
info->serial_signals |= SerialSignal_RTS;
}
spin_lock_irqsave(&info->lock,flags);
set_signals(info);
spin_unlock_irqrestore(&info->lock,flags);
}
/* Handle turning off CRTSCTS */
if (old_termios->c_cflag & CRTSCTS &&
!(tty->termios->c_cflag & CRTSCTS)) {
tty->hw_stopped = 0;
tx_release(tty);
}
}
/* Send a block of data
*
* Arguments:
*
* tty pointer to tty information structure
* buf pointer to buffer containing send data
* count size of send data in bytes
*
* Return Value: number of characters written
*/
static int write(struct tty_struct *tty,
const unsigned char *buf, int count)
{
int c, ret = 0;
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s write() count=%d\n",
__FILE__,__LINE__,info->device_name,count);
if (sanity_check(info, tty->name, "write"))
goto cleanup;
if (!tty || !info->tx_buf)
goto cleanup;
if (info->params.mode == MGSL_MODE_HDLC) {
if (count > info->max_frame_size) {
ret = -EIO;
goto cleanup;
}
if (info->tx_active)
goto cleanup;
if (info->tx_count) {
/* send accumulated data from send_char() calls */
/* as frame and wait before accepting more data. */
tx_load_dma_buffer(info, info->tx_buf, info->tx_count);
goto start;
}
ret = info->tx_count = count;
tx_load_dma_buffer(info, buf, count);
goto start;
}
for (;;) {
c = min_t(int, count,
min(info->max_frame_size - info->tx_count - 1,
info->max_frame_size - info->tx_put));
if (c <= 0)
break;
memcpy(info->tx_buf + info->tx_put, buf, c);
spin_lock_irqsave(&info->lock,flags);
info->tx_put += c;
if (info->tx_put >= info->max_frame_size)
info->tx_put -= info->max_frame_size;
info->tx_count += c;
spin_unlock_irqrestore(&info->lock,flags);
buf += c;
count -= c;
ret += c;
}
if (info->params.mode == MGSL_MODE_HDLC) {
if (count) {
ret = info->tx_count = 0;
goto cleanup;
}
tx_load_dma_buffer(info, info->tx_buf, info->tx_count);
}
start:
if (info->tx_count && !tty->stopped && !tty->hw_stopped) {
spin_lock_irqsave(&info->lock,flags);
if (!info->tx_active)
tx_start(info);
spin_unlock_irqrestore(&info->lock,flags);
}
cleanup:
if (debug_level >= DEBUG_LEVEL_INFO)
printk( "%s(%d):%s write() returning=%d\n",
__FILE__,__LINE__,info->device_name,ret);
return ret;
}
/* Add a character to the transmit buffer.
*/
static void put_char(struct tty_struct *tty, unsigned char ch)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if ( debug_level >= DEBUG_LEVEL_INFO ) {
printk( "%s(%d):%s put_char(%d)\n",
__FILE__,__LINE__,info->device_name,ch);
}
if (sanity_check(info, tty->name, "put_char"))
return;
if (!tty || !info->tx_buf)
return;
spin_lock_irqsave(&info->lock,flags);
if ( (info->params.mode != MGSL_MODE_HDLC) ||
!info->tx_active ) {
if (info->tx_count < info->max_frame_size - 1) {
info->tx_buf[info->tx_put++] = ch;
if (info->tx_put >= info->max_frame_size)
info->tx_put -= info->max_frame_size;
info->tx_count++;
}
}
spin_unlock_irqrestore(&info->lock,flags);
}
/* Send a high-priority XON/XOFF character
*/
static void send_xchar(struct tty_struct *tty, char ch)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s send_xchar(%d)\n",
__FILE__,__LINE__, info->device_name, ch );
if (sanity_check(info, tty->name, "send_xchar"))
return;
info->x_char = ch;
if (ch) {
/* Make sure transmit interrupts are on */
spin_lock_irqsave(&info->lock,flags);
if (!info->tx_enabled)
tx_start(info);
spin_unlock_irqrestore(&info->lock,flags);
}
}
/* Wait until the transmitter is empty.
*/
static void wait_until_sent(struct tty_struct *tty, int timeout)
{
SLMP_INFO * info = (SLMP_INFO *)tty->driver_data;
unsigned long orig_jiffies, char_time;
if (!info )
return;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s wait_until_sent() entry\n",
__FILE__,__LINE__, info->device_name );
if (sanity_check(info, tty->name, "wait_until_sent"))
return;
if (!(info->flags & ASYNC_INITIALIZED))
goto exit;
orig_jiffies = jiffies;
/* Set check interval to 1/5 of estimated time to
* send a character, and make it at least 1. The check
* interval should also be less than the timeout.
* Note: use tight timings here to satisfy the NIST-PCTS.
*/
if ( info->params.data_rate ) {
char_time = info->timeout/(32 * 5);
if (!char_time)
char_time++;
} else
char_time = 1;
if (timeout)
char_time = min_t(unsigned long, char_time, timeout);
if ( info->params.mode == MGSL_MODE_HDLC ) {
while (info->tx_active) {
msleep_interruptible(jiffies_to_msecs(char_time));
if (signal_pending(current))
break;
if (timeout && time_after(jiffies, orig_jiffies + timeout))
break;
}
} else {
//TODO: determine if there is something similar to USC16C32
// TXSTATUS_ALL_SENT status
while ( info->tx_active && info->tx_enabled) {
msleep_interruptible(jiffies_to_msecs(char_time));
if (signal_pending(current))
break;
if (timeout && time_after(jiffies, orig_jiffies + timeout))
break;
}
}
exit:
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s wait_until_sent() exit\n",
__FILE__,__LINE__, info->device_name );
}
/* Return the count of free bytes in transmit buffer
*/
static int write_room(struct tty_struct *tty)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
int ret;
if (sanity_check(info, tty->name, "write_room"))
return 0;
if (info->params.mode == MGSL_MODE_HDLC) {
ret = (info->tx_active) ? 0 : HDLC_MAX_FRAME_SIZE;
} else {
ret = info->max_frame_size - info->tx_count - 1;
if (ret < 0)
ret = 0;
}
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s write_room()=%d\n",
__FILE__, __LINE__, info->device_name, ret);
return ret;
}
/* enable transmitter and send remaining buffered characters
*/
static void flush_chars(struct tty_struct *tty)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):%s flush_chars() entry tx_count=%d\n",
__FILE__,__LINE__,info->device_name,info->tx_count);
if (sanity_check(info, tty->name, "flush_chars"))
return;
if (info->tx_count <= 0 || tty->stopped || tty->hw_stopped ||
!info->tx_buf)
return;
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):%s flush_chars() entry, starting transmitter\n",
__FILE__,__LINE__,info->device_name );
spin_lock_irqsave(&info->lock,flags);
if (!info->tx_active) {
if ( (info->params.mode == MGSL_MODE_HDLC) &&
info->tx_count ) {
/* operating in synchronous (frame oriented) mode */
/* copy data from circular tx_buf to */
/* transmit DMA buffer. */
tx_load_dma_buffer(info,
info->tx_buf,info->tx_count);
}
tx_start(info);
}
spin_unlock_irqrestore(&info->lock,flags);
}
/* Discard all data in the send buffer
*/
static void flush_buffer(struct tty_struct *tty)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s flush_buffer() entry\n",
__FILE__,__LINE__, info->device_name );
if (sanity_check(info, tty->name, "flush_buffer"))
return;
spin_lock_irqsave(&info->lock,flags);
info->tx_count = info->tx_put = info->tx_get = 0;
del_timer(&info->tx_timer);
spin_unlock_irqrestore(&info->lock,flags);
wake_up_interruptible(&tty->write_wait);
tty_wakeup(tty);
}
/* throttle (stop) transmitter
*/
static void tx_hold(struct tty_struct *tty)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if (sanity_check(info, tty->name, "tx_hold"))
return;
if ( debug_level >= DEBUG_LEVEL_INFO )
printk("%s(%d):%s tx_hold()\n",
__FILE__,__LINE__,info->device_name);
spin_lock_irqsave(&info->lock,flags);
if (info->tx_enabled)
tx_stop(info);
spin_unlock_irqrestore(&info->lock,flags);
}
/* release (start) transmitter
*/
static void tx_release(struct tty_struct *tty)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if (sanity_check(info, tty->name, "tx_release"))
return;
if ( debug_level >= DEBUG_LEVEL_INFO )
printk("%s(%d):%s tx_release()\n",
__FILE__,__LINE__,info->device_name);
spin_lock_irqsave(&info->lock,flags);
if (!info->tx_enabled)
tx_start(info);
spin_unlock_irqrestore(&info->lock,flags);
}
/* Service an IOCTL request
*
* Arguments:
*
* tty pointer to tty instance data
* file pointer to associated file object for device
* cmd IOCTL command code
* arg command argument/context
*
* Return Value: 0 if success, otherwise error code
*/
static int ioctl(struct tty_struct *tty, struct file *file,
unsigned int cmd, unsigned long arg)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
int error;
struct mgsl_icount cnow; /* kernel counter temps */
struct serial_icounter_struct __user *p_cuser; /* user space */
unsigned long flags;
void __user *argp = (void __user *)arg;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s ioctl() cmd=%08X\n", __FILE__,__LINE__,
info->device_name, cmd );
if (sanity_check(info, tty->name, "ioctl"))
return -ENODEV;
if ((cmd != TIOCGSERIAL) && (cmd != TIOCSSERIAL) &&
(cmd != TIOCMIWAIT) && (cmd != TIOCGICOUNT)) {
if (tty->flags & (1 << TTY_IO_ERROR))
return -EIO;
}
switch (cmd) {
case MGSL_IOCGPARAMS:
return get_params(info, argp);
case MGSL_IOCSPARAMS:
return set_params(info, argp);
case MGSL_IOCGTXIDLE:
return get_txidle(info, argp);
case MGSL_IOCSTXIDLE:
return set_txidle(info, (int)arg);
case MGSL_IOCTXENABLE:
return tx_enable(info, (int)arg);
case MGSL_IOCRXENABLE:
return rx_enable(info, (int)arg);
case MGSL_IOCTXABORT:
return tx_abort(info);
case MGSL_IOCGSTATS:
return get_stats(info, argp);
case MGSL_IOCWAITEVENT:
return wait_mgsl_event(info, argp);
case MGSL_IOCLOOPTXDONE:
return 0; // TODO: Not supported, need to document
/* Wait for modem input (DCD,RI,DSR,CTS) change
* as specified by mask in arg (TIOCM_RNG/DSR/CD/CTS)
*/
case TIOCMIWAIT:
return modem_input_wait(info,(int)arg);
/*
* Get counter of input serial line interrupts (DCD,RI,DSR,CTS)
* Return: write counters to the user passed counter struct
* NB: both 1->0 and 0->1 transitions are counted except for
* RI where only 0->1 is counted.
*/
case TIOCGICOUNT:
spin_lock_irqsave(&info->lock,flags);
cnow = info->icount;
spin_unlock_irqrestore(&info->lock,flags);
p_cuser = argp;
PUT_USER(error,cnow.cts, &p_cuser->cts);
if (error) return error;
PUT_USER(error,cnow.dsr, &p_cuser->dsr);
if (error) return error;
PUT_USER(error,cnow.rng, &p_cuser->rng);
if (error) return error;
PUT_USER(error,cnow.dcd, &p_cuser->dcd);
if (error) return error;
PUT_USER(error,cnow.rx, &p_cuser->rx);
if (error) return error;
PUT_USER(error,cnow.tx, &p_cuser->tx);
if (error) return error;
PUT_USER(error,cnow.frame, &p_cuser->frame);
if (error) return error;
PUT_USER(error,cnow.overrun, &p_cuser->overrun);
if (error) return error;
PUT_USER(error,cnow.parity, &p_cuser->parity);
if (error) return error;
PUT_USER(error,cnow.brk, &p_cuser->brk);
if (error) return error;
PUT_USER(error,cnow.buf_overrun, &p_cuser->buf_overrun);
if (error) return error;
return 0;
default:
return -ENOIOCTLCMD;
}
return 0;
}
/*
* /proc fs routines....
*/
static inline int line_info(char *buf, SLMP_INFO *info)
{
char stat_buf[30];
int ret;
unsigned long flags;
ret = sprintf(buf, "%s: SCABase=%08x Mem=%08X StatusControl=%08x LCR=%08X\n"
"\tIRQ=%d MaxFrameSize=%u\n",
info->device_name,
info->phys_sca_base,
info->phys_memory_base,
info->phys_statctrl_base,
info->phys_lcr_base,
info->irq_level,
info->max_frame_size );
/* output current serial signal states */
spin_lock_irqsave(&info->lock,flags);
get_signals(info);
spin_unlock_irqrestore(&info->lock,flags);
stat_buf[0] = 0;
stat_buf[1] = 0;
if (info->serial_signals & SerialSignal_RTS)
strcat(stat_buf, "|RTS");
if (info->serial_signals & SerialSignal_CTS)
strcat(stat_buf, "|CTS");
if (info->serial_signals & SerialSignal_DTR)
strcat(stat_buf, "|DTR");
if (info->serial_signals & SerialSignal_DSR)
strcat(stat_buf, "|DSR");
if (info->serial_signals & SerialSignal_DCD)
strcat(stat_buf, "|CD");
if (info->serial_signals & SerialSignal_RI)
strcat(stat_buf, "|RI");
if (info->params.mode == MGSL_MODE_HDLC) {
ret += sprintf(buf+ret, "\tHDLC txok:%d rxok:%d",
info->icount.txok, info->icount.rxok);
if (info->icount.txunder)
ret += sprintf(buf+ret, " txunder:%d", info->icount.txunder);
if (info->icount.txabort)
ret += sprintf(buf+ret, " txabort:%d", info->icount.txabort);
if (info->icount.rxshort)
ret += sprintf(buf+ret, " rxshort:%d", info->icount.rxshort);
if (info->icount.rxlong)
ret += sprintf(buf+ret, " rxlong:%d", info->icount.rxlong);
if (info->icount.rxover)
ret += sprintf(buf+ret, " rxover:%d", info->icount.rxover);
if (info->icount.rxcrc)
ret += sprintf(buf+ret, " rxlong:%d", info->icount.rxcrc);
} else {
ret += sprintf(buf+ret, "\tASYNC tx:%d rx:%d",
info->icount.tx, info->icount.rx);
if (info->icount.frame)
ret += sprintf(buf+ret, " fe:%d", info->icount.frame);
if (info->icount.parity)
ret += sprintf(buf+ret, " pe:%d", info->icount.parity);
if (info->icount.brk)
ret += sprintf(buf+ret, " brk:%d", info->icount.brk);
if (info->icount.overrun)
ret += sprintf(buf+ret, " oe:%d", info->icount.overrun);
}
/* Append serial signal status to end */
ret += sprintf(buf+ret, " %s\n", stat_buf+1);
ret += sprintf(buf+ret, "\ttxactive=%d bh_req=%d bh_run=%d pending_bh=%x\n",
info->tx_active,info->bh_requested,info->bh_running,
info->pending_bh);
return ret;
}
/* Called to print information about devices
*/
int read_proc(char *page, char **start, off_t off, int count,
int *eof, void *data)
{
int len = 0, l;
off_t begin = 0;
SLMP_INFO *info;
len += sprintf(page, "synclinkmp driver:%s\n", driver_version);
info = synclinkmp_device_list;
while( info ) {
l = line_info(page + len, info);
len += l;
if (len+begin > off+count)
goto done;
if (len+begin < off) {
begin += len;
len = 0;
}
info = info->next_device;
}
*eof = 1;
done:
if (off >= len+begin)
return 0;
*start = page + (off-begin);
return ((count < begin+len-off) ? count : begin+len-off);
}
/* Return the count of bytes in transmit buffer
*/
static int chars_in_buffer(struct tty_struct *tty)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
if (sanity_check(info, tty->name, "chars_in_buffer"))
return 0;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s chars_in_buffer()=%d\n",
__FILE__, __LINE__, info->device_name, info->tx_count);
return info->tx_count;
}
/* Signal remote device to throttle send data (our receive data)
*/
static void throttle(struct tty_struct * tty)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s throttle() entry\n",
__FILE__,__LINE__, info->device_name );
if (sanity_check(info, tty->name, "throttle"))
return;
if (I_IXOFF(tty))
send_xchar(tty, STOP_CHAR(tty));
if (tty->termios->c_cflag & CRTSCTS) {
spin_lock_irqsave(&info->lock,flags);
info->serial_signals &= ~SerialSignal_RTS;
set_signals(info);
spin_unlock_irqrestore(&info->lock,flags);
}
}
/* Signal remote device to stop throttling send data (our receive data)
*/
static void unthrottle(struct tty_struct * tty)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s unthrottle() entry\n",
__FILE__,__LINE__, info->device_name );
if (sanity_check(info, tty->name, "unthrottle"))
return;
if (I_IXOFF(tty)) {
if (info->x_char)
info->x_char = 0;
else
send_xchar(tty, START_CHAR(tty));
}
if (tty->termios->c_cflag & CRTSCTS) {
spin_lock_irqsave(&info->lock,flags);
info->serial_signals |= SerialSignal_RTS;
set_signals(info);
spin_unlock_irqrestore(&info->lock,flags);
}
}
/* set or clear transmit break condition
* break_state -1=set break condition, 0=clear
*/
static void set_break(struct tty_struct *tty, int break_state)
{
unsigned char RegValue;
SLMP_INFO * info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s set_break(%d)\n",
__FILE__,__LINE__, info->device_name, break_state);
if (sanity_check(info, tty->name, "set_break"))
return;
spin_lock_irqsave(&info->lock,flags);
RegValue = read_reg(info, CTL);
if (break_state == -1)
RegValue |= BIT3;
else
RegValue &= ~BIT3;
write_reg(info, CTL, RegValue);
spin_unlock_irqrestore(&info->lock,flags);
}
#ifdef CONFIG_HDLC
/**
* called by generic HDLC layer when protocol selected (PPP, frame relay, etc.)
* set encoding and frame check sequence (FCS) options
*
* dev pointer to network device structure
* encoding serial encoding setting
* parity FCS setting
*
* returns 0 if success, otherwise error code
*/
static int hdlcdev_attach(struct net_device *dev, unsigned short encoding,
unsigned short parity)
{
SLMP_INFO *info = dev_to_port(dev);
unsigned char new_encoding;
unsigned short new_crctype;
/* return error if TTY interface open */
if (info->count)
return -EBUSY;
switch (encoding)
{
case ENCODING_NRZ: new_encoding = HDLC_ENCODING_NRZ; break;
case ENCODING_NRZI: new_encoding = HDLC_ENCODING_NRZI_SPACE; break;
case ENCODING_FM_MARK: new_encoding = HDLC_ENCODING_BIPHASE_MARK; break;
case ENCODING_FM_SPACE: new_encoding = HDLC_ENCODING_BIPHASE_SPACE; break;
case ENCODING_MANCHESTER: new_encoding = HDLC_ENCODING_BIPHASE_LEVEL; break;
default: return -EINVAL;
}
switch (parity)
{
case PARITY_NONE: new_crctype = HDLC_CRC_NONE; break;
case PARITY_CRC16_PR1_CCITT: new_crctype = HDLC_CRC_16_CCITT; break;
case PARITY_CRC32_PR1_CCITT: new_crctype = HDLC_CRC_32_CCITT; break;
default: return -EINVAL;
}
info->params.encoding = new_encoding;
info->params.crc_type = new_crctype;;
/* if network interface up, reprogram hardware */
if (info->netcount)
program_hw(info);
return 0;
}
/**
* called by generic HDLC layer to send frame
*
* skb socket buffer containing HDLC frame
* dev pointer to network device structure
*
* returns 0 if success, otherwise error code
*/
static int hdlcdev_xmit(struct sk_buff *skb, struct net_device *dev)
{
SLMP_INFO *info = dev_to_port(dev);
struct net_device_stats *stats = hdlc_stats(dev);
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk(KERN_INFO "%s:hdlc_xmit(%s)\n",__FILE__,dev->name);
/* stop sending until this frame completes */
netif_stop_queue(dev);
/* copy data to device buffers */
info->tx_count = skb->len;
tx_load_dma_buffer(info, skb->data, skb->len);
/* update network statistics */
stats->tx_packets++;
stats->tx_bytes += skb->len;
/* done with socket buffer, so free it */
dev_kfree_skb(skb);
/* save start time for transmit timeout detection */
dev->trans_start = jiffies;
/* start hardware transmitter if necessary */
spin_lock_irqsave(&info->lock,flags);
if (!info->tx_active)
tx_start(info);
spin_unlock_irqrestore(&info->lock,flags);
return 0;
}
/**
* called by network layer when interface enabled
* claim resources and initialize hardware
*
* dev pointer to network device structure
*
* returns 0 if success, otherwise error code
*/
static int hdlcdev_open(struct net_device *dev)
{
SLMP_INFO *info = dev_to_port(dev);
int rc;
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s:hdlcdev_open(%s)\n",__FILE__,dev->name);
/* generic HDLC layer open processing */
if ((rc = hdlc_open(dev)))
return rc;
/* arbitrate between network and tty opens */
spin_lock_irqsave(&info->netlock, flags);
if (info->count != 0 || info->netcount != 0) {
printk(KERN_WARNING "%s: hdlc_open returning busy\n", dev->name);
spin_unlock_irqrestore(&info->netlock, flags);
return -EBUSY;
}
info->netcount=1;
spin_unlock_irqrestore(&info->netlock, flags);
/* claim resources and init adapter */
if ((rc = startup(info)) != 0) {
spin_lock_irqsave(&info->netlock, flags);
info->netcount=0;
spin_unlock_irqrestore(&info->netlock, flags);
return rc;
}
/* assert DTR and RTS, apply hardware settings */
info->serial_signals |= SerialSignal_RTS + SerialSignal_DTR;
program_hw(info);
/* enable network layer transmit */
dev->trans_start = jiffies;
netif_start_queue(dev);
/* inform generic HDLC layer of current DCD status */
spin_lock_irqsave(&info->lock, flags);
get_signals(info);
spin_unlock_irqrestore(&info->lock, flags);
hdlc_set_carrier(info->serial_signals & SerialSignal_DCD, dev);
return 0;
}
/**
* called by network layer when interface is disabled
* shutdown hardware and release resources
*
* dev pointer to network device structure
*
* returns 0 if success, otherwise error code
*/
static int hdlcdev_close(struct net_device *dev)
{
SLMP_INFO *info = dev_to_port(dev);
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s:hdlcdev_close(%s)\n",__FILE__,dev->name);
netif_stop_queue(dev);
/* shutdown adapter and release resources */
shutdown(info);
hdlc_close(dev);
spin_lock_irqsave(&info->netlock, flags);
info->netcount=0;
spin_unlock_irqrestore(&info->netlock, flags);
return 0;
}
/**
* called by network layer to process IOCTL call to network device
*
* dev pointer to network device structure
* ifr pointer to network interface request structure
* cmd IOCTL command code
*
* returns 0 if success, otherwise error code
*/
static int hdlcdev_ioctl(struct net_device *dev, struct ifreq *ifr, int cmd)
{
const size_t size = sizeof(sync_serial_settings);
sync_serial_settings new_line;
sync_serial_settings __user *line = ifr->ifr_settings.ifs_ifsu.sync;
SLMP_INFO *info = dev_to_port(dev);
unsigned int flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s:hdlcdev_ioctl(%s)\n",__FILE__,dev->name);
/* return error if TTY interface open */
if (info->count)
return -EBUSY;
if (cmd != SIOCWANDEV)
return hdlc_ioctl(dev, ifr, cmd);
switch(ifr->ifr_settings.type) {
case IF_GET_IFACE: /* return current sync_serial_settings */
ifr->ifr_settings.type = IF_IFACE_SYNC_SERIAL;
if (ifr->ifr_settings.size < size) {
ifr->ifr_settings.size = size; /* data size wanted */
return -ENOBUFS;
}
flags = info->params.flags & (HDLC_FLAG_RXC_RXCPIN | HDLC_FLAG_RXC_DPLL |
HDLC_FLAG_RXC_BRG | HDLC_FLAG_RXC_TXCPIN |
HDLC_FLAG_TXC_TXCPIN | HDLC_FLAG_TXC_DPLL |
HDLC_FLAG_TXC_BRG | HDLC_FLAG_TXC_RXCPIN);
switch (flags){
case (HDLC_FLAG_RXC_RXCPIN | HDLC_FLAG_TXC_TXCPIN): new_line.clock_type = CLOCK_EXT; break;
case (HDLC_FLAG_RXC_BRG | HDLC_FLAG_TXC_BRG): new_line.clock_type = CLOCK_INT; break;
case (HDLC_FLAG_RXC_RXCPIN | HDLC_FLAG_TXC_BRG): new_line.clock_type = CLOCK_TXINT; break;
case (HDLC_FLAG_RXC_RXCPIN | HDLC_FLAG_TXC_RXCPIN): new_line.clock_type = CLOCK_TXFROMRX; break;
default: new_line.clock_type = CLOCK_DEFAULT;
}
new_line.clock_rate = info->params.clock_speed;
new_line.loopback = info->params.loopback ? 1:0;
if (copy_to_user(line, &new_line, size))
return -EFAULT;
return 0;
case IF_IFACE_SYNC_SERIAL: /* set sync_serial_settings */
if(!capable(CAP_NET_ADMIN))
return -EPERM;
if (copy_from_user(&new_line, line, size))
return -EFAULT;
switch (new_line.clock_type)
{
case CLOCK_EXT: flags = HDLC_FLAG_RXC_RXCPIN | HDLC_FLAG_TXC_TXCPIN; break;
case CLOCK_TXFROMRX: flags = HDLC_FLAG_RXC_RXCPIN | HDLC_FLAG_TXC_RXCPIN; break;
case CLOCK_INT: flags = HDLC_FLAG_RXC_BRG | HDLC_FLAG_TXC_BRG; break;
case CLOCK_TXINT: flags = HDLC_FLAG_RXC_RXCPIN | HDLC_FLAG_TXC_BRG; break;
case CLOCK_DEFAULT: flags = info->params.flags &
(HDLC_FLAG_RXC_RXCPIN | HDLC_FLAG_RXC_DPLL |
HDLC_FLAG_RXC_BRG | HDLC_FLAG_RXC_TXCPIN |
HDLC_FLAG_TXC_TXCPIN | HDLC_FLAG_TXC_DPLL |
HDLC_FLAG_TXC_BRG | HDLC_FLAG_TXC_RXCPIN); break;
default: return -EINVAL;
}
if (new_line.loopback != 0 && new_line.loopback != 1)
return -EINVAL;
info->params.flags &= ~(HDLC_FLAG_RXC_RXCPIN | HDLC_FLAG_RXC_DPLL |
HDLC_FLAG_RXC_BRG | HDLC_FLAG_RXC_TXCPIN |
HDLC_FLAG_TXC_TXCPIN | HDLC_FLAG_TXC_DPLL |
HDLC_FLAG_TXC_BRG | HDLC_FLAG_TXC_RXCPIN);
info->params.flags |= flags;
info->params.loopback = new_line.loopback;
if (flags & (HDLC_FLAG_RXC_BRG | HDLC_FLAG_TXC_BRG))
info->params.clock_speed = new_line.clock_rate;
else
info->params.clock_speed = 0;
/* if network interface up, reprogram hardware */
if (info->netcount)
program_hw(info);
return 0;
default:
return hdlc_ioctl(dev, ifr, cmd);
}
}
/**
* called by network layer when transmit timeout is detected
*
* dev pointer to network device structure
*/
static void hdlcdev_tx_timeout(struct net_device *dev)
{
SLMP_INFO *info = dev_to_port(dev);
struct net_device_stats *stats = hdlc_stats(dev);
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("hdlcdev_tx_timeout(%s)\n",dev->name);
stats->tx_errors++;
stats->tx_aborted_errors++;
spin_lock_irqsave(&info->lock,flags);
tx_stop(info);
spin_unlock_irqrestore(&info->lock,flags);
netif_wake_queue(dev);
}
/**
* called by device driver when transmit completes
* reenable network layer transmit if stopped
*
* info pointer to device instance information
*/
static void hdlcdev_tx_done(SLMP_INFO *info)
{
if (netif_queue_stopped(info->netdev))
netif_wake_queue(info->netdev);
}
/**
* called by device driver when frame received
* pass frame to network layer
*
* info pointer to device instance information
* buf pointer to buffer contianing frame data
* size count of data bytes in buf
*/
static void hdlcdev_rx(SLMP_INFO *info, char *buf, int size)
{
struct sk_buff *skb = dev_alloc_skb(size);
struct net_device *dev = info->netdev;
struct net_device_stats *stats = hdlc_stats(dev);
if (debug_level >= DEBUG_LEVEL_INFO)
printk("hdlcdev_rx(%s)\n",dev->name);
if (skb == NULL) {
printk(KERN_NOTICE "%s: can't alloc skb, dropping packet\n", dev->name);
stats->rx_dropped++;
return;
}
memcpy(skb_put(skb, size),buf,size);
skb->protocol = hdlc_type_trans(skb, info->netdev);
stats->rx_packets++;
stats->rx_bytes += size;
netif_rx(skb);
info->netdev->last_rx = jiffies;
}
/**
* called by device driver when adding device instance
* do generic HDLC initialization
*
* info pointer to device instance information
*
* returns 0 if success, otherwise error code
*/
static int hdlcdev_init(SLMP_INFO *info)
{
int rc;
struct net_device *dev;
hdlc_device *hdlc;
/* allocate and initialize network and HDLC layer objects */
if (!(dev = alloc_hdlcdev(info))) {
printk(KERN_ERR "%s:hdlc device allocation failure\n",__FILE__);
return -ENOMEM;
}
/* for network layer reporting purposes only */
dev->mem_start = info->phys_sca_base;
dev->mem_end = info->phys_sca_base + SCA_BASE_SIZE - 1;
dev->irq = info->irq_level;
/* network layer callbacks and settings */
dev->do_ioctl = hdlcdev_ioctl;
dev->open = hdlcdev_open;
dev->stop = hdlcdev_close;
dev->tx_timeout = hdlcdev_tx_timeout;
dev->watchdog_timeo = 10*HZ;
dev->tx_queue_len = 50;
/* generic HDLC layer callbacks and settings */
hdlc = dev_to_hdlc(dev);
hdlc->attach = hdlcdev_attach;
hdlc->xmit = hdlcdev_xmit;
/* register objects with HDLC layer */
if ((rc = register_hdlc_device(dev))) {
printk(KERN_WARNING "%s:unable to register hdlc device\n",__FILE__);
free_netdev(dev);
return rc;
}
info->netdev = dev;
return 0;
}
/**
* called by device driver when removing device instance
* do generic HDLC cleanup
*
* info pointer to device instance information
*/
static void hdlcdev_exit(SLMP_INFO *info)
{
unregister_hdlc_device(info->netdev);
free_netdev(info->netdev);
info->netdev = NULL;
}
#endif /* CONFIG_HDLC */
/* Return next bottom half action to perform.
* Return Value: BH action code or 0 if nothing to do.
*/
int bh_action(SLMP_INFO *info)
{
unsigned long flags;
int rc = 0;
spin_lock_irqsave(&info->lock,flags);
if (info->pending_bh & BH_RECEIVE) {
info->pending_bh &= ~BH_RECEIVE;
rc = BH_RECEIVE;
} else if (info->pending_bh & BH_TRANSMIT) {
info->pending_bh &= ~BH_TRANSMIT;
rc = BH_TRANSMIT;
} else if (info->pending_bh & BH_STATUS) {
info->pending_bh &= ~BH_STATUS;
rc = BH_STATUS;
}
if (!rc) {
/* Mark BH routine as complete */
info->bh_running = 0;
info->bh_requested = 0;
}
spin_unlock_irqrestore(&info->lock,flags);
return rc;
}
/* Perform bottom half processing of work items queued by ISR.
*/
void bh_handler(void* Context)
{
SLMP_INFO *info = (SLMP_INFO*)Context;
int action;
if (!info)
return;
if ( debug_level >= DEBUG_LEVEL_BH )
printk( "%s(%d):%s bh_handler() entry\n",
__FILE__,__LINE__,info->device_name);
info->bh_running = 1;
while((action = bh_action(info)) != 0) {
/* Process work item */
if ( debug_level >= DEBUG_LEVEL_BH )
printk( "%s(%d):%s bh_handler() work item action=%d\n",
__FILE__,__LINE__,info->device_name, action);
switch (action) {
case BH_RECEIVE:
bh_receive(info);
break;
case BH_TRANSMIT:
bh_transmit(info);
break;
case BH_STATUS:
bh_status(info);
break;
default:
/* unknown work item ID */
printk("%s(%d):%s Unknown work item ID=%08X!\n",
__FILE__,__LINE__,info->device_name,action);
break;
}
}
if ( debug_level >= DEBUG_LEVEL_BH )
printk( "%s(%d):%s bh_handler() exit\n",
__FILE__,__LINE__,info->device_name);
}
void bh_receive(SLMP_INFO *info)
{
if ( debug_level >= DEBUG_LEVEL_BH )
printk( "%s(%d):%s bh_receive()\n",
__FILE__,__LINE__,info->device_name);
while( rx_get_frame(info) );
}
void bh_transmit(SLMP_INFO *info)
{
struct tty_struct *tty = info->tty;
if ( debug_level >= DEBUG_LEVEL_BH )
printk( "%s(%d):%s bh_transmit() entry\n",
__FILE__,__LINE__,info->device_name);
if (tty) {
tty_wakeup(tty);
wake_up_interruptible(&tty->write_wait);
}
}
void bh_status(SLMP_INFO *info)
{
if ( debug_level >= DEBUG_LEVEL_BH )
printk( "%s(%d):%s bh_status() entry\n",
__FILE__,__LINE__,info->device_name);
info->ri_chkcount = 0;
info->dsr_chkcount = 0;
info->dcd_chkcount = 0;
info->cts_chkcount = 0;
}
void isr_timer(SLMP_INFO * info)
{
unsigned char timer = (info->port_num & 1) ? TIMER2 : TIMER0;
/* IER2<7..4> = timer<3..0> interrupt enables (0=disabled) */
write_reg(info, IER2, 0);
/* TMCS, Timer Control/Status Register
*
* 07 CMF, Compare match flag (read only) 1=match
* 06 ECMI, CMF Interrupt Enable: 0=disabled
* 05 Reserved, must be 0
* 04 TME, Timer Enable
* 03..00 Reserved, must be 0
*
* 0000 0000
*/
write_reg(info, (unsigned char)(timer + TMCS), 0);
info->irq_occurred = TRUE;
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s isr_timer()\n",
__FILE__,__LINE__,info->device_name);
}
void isr_rxint(SLMP_INFO * info)
{
struct tty_struct *tty = info->tty;
struct mgsl_icount *icount = &info->icount;
unsigned char status = read_reg(info, SR1) & info->ie1_value & (FLGD + IDLD + CDCD + BRKD);
unsigned char status2 = read_reg(info, SR2) & info->ie2_value & OVRN;
/* clear status bits */
if (status)
write_reg(info, SR1, status);
if (status2)
write_reg(info, SR2, status2);
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s isr_rxint status=%02X %02x\n",
__FILE__,__LINE__,info->device_name,status,status2);
if (info->params.mode == MGSL_MODE_ASYNC) {
if (status & BRKD) {
icount->brk++;
/* process break detection if tty control
* is not set to ignore it
*/
if ( tty ) {
if (!(status & info->ignore_status_mask1)) {
if (info->read_status_mask1 & BRKD) {
*tty->flip.flag_buf_ptr = TTY_BREAK;
if (info->flags & ASYNC_SAK)
do_SAK(tty);
}
}
}
}
}
else {
if (status & (FLGD|IDLD)) {
if (status & FLGD)
info->icount.exithunt++;
else if (status & IDLD)
info->icount.rxidle++;
wake_up_interruptible(&info->event_wait_q);
}
}
if (status & CDCD) {
/* simulate a common modem status change interrupt
* for our handler
*/
get_signals( info );
isr_io_pin(info,
MISCSTATUS_DCD_LATCHED|(info->serial_signals&SerialSignal_DCD));
}
}
/*
* handle async rx data interrupts
*/
void isr_rxrdy(SLMP_INFO * info)
{
u16 status;
unsigned char DataByte;
struct tty_struct *tty = info->tty;
struct mgsl_icount *icount = &info->icount;
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s isr_rxrdy\n",
__FILE__,__LINE__,info->device_name);
while((status = read_reg(info,CST0)) & BIT0)
{
DataByte = read_reg(info,TRB);
if ( tty ) {
if (tty->flip.count >= TTY_FLIPBUF_SIZE)
continue;
*tty->flip.char_buf_ptr = DataByte;
*tty->flip.flag_buf_ptr = 0;
}
icount->rx++;
if ( status & (PE + FRME + OVRN) ) {
printk("%s(%d):%s rxerr=%04X\n",
__FILE__,__LINE__,info->device_name,status);
/* update error statistics */
if (status & PE)
icount->parity++;
else if (status & FRME)
icount->frame++;
else if (status & OVRN)
icount->overrun++;
/* discard char if tty control flags say so */
if (status & info->ignore_status_mask2)
continue;
status &= info->read_status_mask2;
if ( tty ) {
if (status & PE)
*tty->flip.flag_buf_ptr = TTY_PARITY;
else if (status & FRME)
*tty->flip.flag_buf_ptr = TTY_FRAME;
if (status & OVRN) {
/* Overrun is special, since it's
* reported immediately, and doesn't
* affect the current character
*/
if (tty->flip.count < TTY_FLIPBUF_SIZE) {
tty->flip.count++;
tty->flip.flag_buf_ptr++;
tty->flip.char_buf_ptr++;
*tty->flip.flag_buf_ptr = TTY_OVERRUN;
}
}
}
} /* end of if (error) */
if ( tty ) {
tty->flip.flag_buf_ptr++;
tty->flip.char_buf_ptr++;
tty->flip.count++;
}
}
if ( debug_level >= DEBUG_LEVEL_ISR ) {
printk("%s(%d):%s isr_rxrdy() flip count=%d\n",
__FILE__,__LINE__,info->device_name,
tty ? tty->flip.count : 0);
printk("%s(%d):%s rx=%d brk=%d parity=%d frame=%d overrun=%d\n",
__FILE__,__LINE__,info->device_name,
icount->rx,icount->brk,icount->parity,
icount->frame,icount->overrun);
}
if ( tty && tty->flip.count )
tty_flip_buffer_push(tty);
}
static void isr_txeom(SLMP_INFO * info, unsigned char status)
{
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s isr_txeom status=%02x\n",
__FILE__,__LINE__,info->device_name,status);
write_reg(info, TXDMA + DIR, 0x00); /* disable Tx DMA IRQs */
write_reg(info, TXDMA + DSR, 0xc0); /* clear IRQs and disable DMA */
write_reg(info, TXDMA + DCMD, SWABORT); /* reset/init DMA channel */
if (status & UDRN) {
write_reg(info, CMD, TXRESET);
write_reg(info, CMD, TXENABLE);
} else
write_reg(info, CMD, TXBUFCLR);
/* disable and clear tx interrupts */
info->ie0_value &= ~TXRDYE;
info->ie1_value &= ~(IDLE + UDRN);
write_reg16(info, IE0, (unsigned short)((info->ie1_value << 8) + info->ie0_value));
write_reg(info, SR1, (unsigned char)(UDRN + IDLE));
if ( info->tx_active ) {
if (info->params.mode != MGSL_MODE_ASYNC) {
if (status & UDRN)
info->icount.txunder++;
else if (status & IDLE)
info->icount.txok++;
}
info->tx_active = 0;
info->tx_count = info->tx_put = info->tx_get = 0;
del_timer(&info->tx_timer);
if (info->params.mode != MGSL_MODE_ASYNC && info->drop_rts_on_tx_done ) {
info->serial_signals &= ~SerialSignal_RTS;
info->drop_rts_on_tx_done = 0;
set_signals(info);
}
#ifdef CONFIG_HDLC
if (info->netcount)
hdlcdev_tx_done(info);
else
#endif
{
if (info->tty && (info->tty->stopped || info->tty->hw_stopped)) {
tx_stop(info);
return;
}
info->pending_bh |= BH_TRANSMIT;
}
}
}
/*
* handle tx status interrupts
*/
void isr_txint(SLMP_INFO * info)
{
unsigned char status = read_reg(info, SR1) & info->ie1_value & (UDRN + IDLE + CCTS);
/* clear status bits */
write_reg(info, SR1, status);
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s isr_txint status=%02x\n",
__FILE__,__LINE__,info->device_name,status);
if (status & (UDRN + IDLE))
isr_txeom(info, status);
if (status & CCTS) {
/* simulate a common modem status change interrupt
* for our handler
*/
get_signals( info );
isr_io_pin(info,
MISCSTATUS_CTS_LATCHED|(info->serial_signals&SerialSignal_CTS));
}
}
/*
* handle async tx data interrupts
*/
void isr_txrdy(SLMP_INFO * info)
{
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s isr_txrdy() tx_count=%d\n",
__FILE__,__LINE__,info->device_name,info->tx_count);
if (info->params.mode != MGSL_MODE_ASYNC) {
/* disable TXRDY IRQ, enable IDLE IRQ */
info->ie0_value &= ~TXRDYE;
info->ie1_value |= IDLE;
write_reg16(info, IE0, (unsigned short)((info->ie1_value << 8) + info->ie0_value));
return;
}
if (info->tty && (info->tty->stopped || info->tty->hw_stopped)) {
tx_stop(info);
return;
}
if ( info->tx_count )
tx_load_fifo( info );
else {
info->tx_active = 0;
info->ie0_value &= ~TXRDYE;
write_reg(info, IE0, info->ie0_value);
}
if (info->tx_count < WAKEUP_CHARS)
info->pending_bh |= BH_TRANSMIT;
}
void isr_rxdmaok(SLMP_INFO * info)
{
/* BIT7 = EOT (end of transfer)
* BIT6 = EOM (end of message/frame)
*/
unsigned char status = read_reg(info,RXDMA + DSR) & 0xc0;
/* clear IRQ (BIT0 must be 1 to prevent clearing DE bit) */
write_reg(info, RXDMA + DSR, (unsigned char)(status | 1));
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s isr_rxdmaok(), status=%02x\n",
__FILE__,__LINE__,info->device_name,status);
info->pending_bh |= BH_RECEIVE;
}
void isr_rxdmaerror(SLMP_INFO * info)
{
/* BIT5 = BOF (buffer overflow)
* BIT4 = COF (counter overflow)
*/
unsigned char status = read_reg(info,RXDMA + DSR) & 0x30;
/* clear IRQ (BIT0 must be 1 to prevent clearing DE bit) */
write_reg(info, RXDMA + DSR, (unsigned char)(status | 1));
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s isr_rxdmaerror(), status=%02x\n",
__FILE__,__LINE__,info->device_name,status);
info->rx_overflow = TRUE;
info->pending_bh |= BH_RECEIVE;
}
void isr_txdmaok(SLMP_INFO * info)
{
unsigned char status_reg1 = read_reg(info, SR1);
write_reg(info, TXDMA + DIR, 0x00); /* disable Tx DMA IRQs */
write_reg(info, TXDMA + DSR, 0xc0); /* clear IRQs and disable DMA */
write_reg(info, TXDMA + DCMD, SWABORT); /* reset/init DMA channel */
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s isr_txdmaok(), status=%02x\n",
__FILE__,__LINE__,info->device_name,status_reg1);
/* program TXRDY as FIFO empty flag, enable TXRDY IRQ */
write_reg16(info, TRC0, 0);
info->ie0_value |= TXRDYE;
write_reg(info, IE0, info->ie0_value);
}
void isr_txdmaerror(SLMP_INFO * info)
{
/* BIT5 = BOF (buffer overflow)
* BIT4 = COF (counter overflow)
*/
unsigned char status = read_reg(info,TXDMA + DSR) & 0x30;
/* clear IRQ (BIT0 must be 1 to prevent clearing DE bit) */
write_reg(info, TXDMA + DSR, (unsigned char)(status | 1));
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s isr_txdmaerror(), status=%02x\n",
__FILE__,__LINE__,info->device_name,status);
}
/* handle input serial signal changes
*/
void isr_io_pin( SLMP_INFO *info, u16 status )
{
struct mgsl_icount *icount;
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):isr_io_pin status=%04X\n",
__FILE__,__LINE__,status);
if (status & (MISCSTATUS_CTS_LATCHED | MISCSTATUS_DCD_LATCHED |
MISCSTATUS_DSR_LATCHED | MISCSTATUS_RI_LATCHED) ) {
icount = &info->icount;
/* update input line counters */
if (status & MISCSTATUS_RI_LATCHED) {
icount->rng++;
if ( status & SerialSignal_RI )
info->input_signal_events.ri_up++;
else
info->input_signal_events.ri_down++;
}
if (status & MISCSTATUS_DSR_LATCHED) {
icount->dsr++;
if ( status & SerialSignal_DSR )
info->input_signal_events.dsr_up++;
else
info->input_signal_events.dsr_down++;
}
if (status & MISCSTATUS_DCD_LATCHED) {
if ((info->dcd_chkcount)++ >= IO_PIN_SHUTDOWN_LIMIT) {
info->ie1_value &= ~CDCD;
write_reg(info, IE1, info->ie1_value);
}
icount->dcd++;
if (status & SerialSignal_DCD) {
info->input_signal_events.dcd_up++;
} else
info->input_signal_events.dcd_down++;
#ifdef CONFIG_HDLC
if (info->netcount)
hdlc_set_carrier(status & SerialSignal_DCD, info->netdev);
#endif
}
if (status & MISCSTATUS_CTS_LATCHED)
{
if ((info->cts_chkcount)++ >= IO_PIN_SHUTDOWN_LIMIT) {
info->ie1_value &= ~CCTS;
write_reg(info, IE1, info->ie1_value);
}
icount->cts++;
if ( status & SerialSignal_CTS )
info->input_signal_events.cts_up++;
else
info->input_signal_events.cts_down++;
}
wake_up_interruptible(&info->status_event_wait_q);
wake_up_interruptible(&info->event_wait_q);
if ( (info->flags & ASYNC_CHECK_CD) &&
(status & MISCSTATUS_DCD_LATCHED) ) {
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s CD now %s...", info->device_name,
(status & SerialSignal_DCD) ? "on" : "off");
if (status & SerialSignal_DCD)
wake_up_interruptible(&info->open_wait);
else {
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("doing serial hangup...");
if (info->tty)
tty_hangup(info->tty);
}
}
if ( (info->flags & ASYNC_CTS_FLOW) &&
(status & MISCSTATUS_CTS_LATCHED) ) {
if ( info->tty ) {
if (info->tty->hw_stopped) {
if (status & SerialSignal_CTS) {
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("CTS tx start...");
info->tty->hw_stopped = 0;
tx_start(info);
info->pending_bh |= BH_TRANSMIT;
return;
}
} else {
if (!(status & SerialSignal_CTS)) {
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("CTS tx stop...");
info->tty->hw_stopped = 1;
tx_stop(info);
}
}
}
}
}
info->pending_bh |= BH_STATUS;
}
/* Interrupt service routine entry point.
*
* Arguments:
* irq interrupt number that caused interrupt
* dev_id device ID supplied during interrupt registration
* regs interrupted processor context
*/
static irqreturn_t synclinkmp_interrupt(int irq, void *dev_id,
struct pt_regs *regs)
{
SLMP_INFO * info;
unsigned char status, status0, status1=0;
unsigned char dmastatus, dmastatus0, dmastatus1=0;
unsigned char timerstatus0, timerstatus1=0;
unsigned char shift;
unsigned int i;
unsigned short tmp;
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d): synclinkmp_interrupt(%d)entry.\n",
__FILE__,__LINE__,irq);
info = (SLMP_INFO *)dev_id;
if (!info)
return IRQ_NONE;
spin_lock(&info->lock);
for(;;) {
/* get status for SCA0 (ports 0-1) */
tmp = read_reg16(info, ISR0); /* get ISR0 and ISR1 in one read */
status0 = (unsigned char)tmp;
dmastatus0 = (unsigned char)(tmp>>8);
timerstatus0 = read_reg(info, ISR2);
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s status0=%02x, dmastatus0=%02x, timerstatus0=%02x\n",
__FILE__,__LINE__,info->device_name,
status0,dmastatus0,timerstatus0);
if (info->port_count == 4) {
/* get status for SCA1 (ports 2-3) */
tmp = read_reg16(info->port_array[2], ISR0);
status1 = (unsigned char)tmp;
dmastatus1 = (unsigned char)(tmp>>8);
timerstatus1 = read_reg(info->port_array[2], ISR2);
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s status1=%02x, dmastatus1=%02x, timerstatus1=%02x\n",
__FILE__,__LINE__,info->device_name,
status1,dmastatus1,timerstatus1);
}
if (!status0 && !dmastatus0 && !timerstatus0 &&
!status1 && !dmastatus1 && !timerstatus1)
break;
for(i=0; i < info->port_count ; i++) {
if (info->port_array[i] == NULL)
continue;
if (i < 2) {
status = status0;
dmastatus = dmastatus0;
} else {
status = status1;
dmastatus = dmastatus1;
}
shift = i & 1 ? 4 :0;
if (status & BIT0 << shift)
isr_rxrdy(info->port_array[i]);
if (status & BIT1 << shift)
isr_txrdy(info->port_array[i]);
if (status & BIT2 << shift)
isr_rxint(info->port_array[i]);
if (status & BIT3 << shift)
isr_txint(info->port_array[i]);
if (dmastatus & BIT0 << shift)
isr_rxdmaerror(info->port_array[i]);
if (dmastatus & BIT1 << shift)
isr_rxdmaok(info->port_array[i]);
if (dmastatus & BIT2 << shift)
isr_txdmaerror(info->port_array[i]);
if (dmastatus & BIT3 << shift)
isr_txdmaok(info->port_array[i]);
}
if (timerstatus0 & (BIT5 | BIT4))
isr_timer(info->port_array[0]);
if (timerstatus0 & (BIT7 | BIT6))
isr_timer(info->port_array[1]);
if (timerstatus1 & (BIT5 | BIT4))
isr_timer(info->port_array[2]);
if (timerstatus1 & (BIT7 | BIT6))
isr_timer(info->port_array[3]);
}
for(i=0; i < info->port_count ; i++) {
SLMP_INFO * port = info->port_array[i];
/* Request bottom half processing if there's something
* for it to do and the bh is not already running.
*
* Note: startup adapter diags require interrupts.
* do not request bottom half processing if the
* device is not open in a normal mode.
*/
if ( port && (port->count || port->netcount) &&
port->pending_bh && !port->bh_running &&
!port->bh_requested ) {
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):%s queueing bh task.\n",
__FILE__,__LINE__,port->device_name);
schedule_work(&port->task);
port->bh_requested = 1;
}
}
spin_unlock(&info->lock);
if ( debug_level >= DEBUG_LEVEL_ISR )
printk("%s(%d):synclinkmp_interrupt(%d)exit.\n",
__FILE__,__LINE__,irq);
return IRQ_HANDLED;
}
/* Initialize and start device.
*/
static int startup(SLMP_INFO * info)
{
if ( debug_level >= DEBUG_LEVEL_INFO )
printk("%s(%d):%s tx_releaseup()\n",__FILE__,__LINE__,info->device_name);
if (info->flags & ASYNC_INITIALIZED)
return 0;
if (!info->tx_buf) {
info->tx_buf = (unsigned char *)kmalloc(info->max_frame_size, GFP_KERNEL);
if (!info->tx_buf) {
printk(KERN_ERR"%s(%d):%s can't allocate transmit buffer\n",
__FILE__,__LINE__,info->device_name);
return -ENOMEM;
}
}
info->pending_bh = 0;
/* program hardware for current parameters */
reset_port(info);
change_params(info);
info->status_timer.expires = jiffies + msecs_to_jiffies(10);
add_timer(&info->status_timer);
if (info->tty)
clear_bit(TTY_IO_ERROR, &info->tty->flags);
info->flags |= ASYNC_INITIALIZED;
return 0;
}
/* Called by close() and hangup() to shutdown hardware
*/
static void shutdown(SLMP_INFO * info)
{
unsigned long flags;
if (!(info->flags & ASYNC_INITIALIZED))
return;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s synclinkmp_shutdown()\n",
__FILE__,__LINE__, info->device_name );
/* clear status wait queue because status changes */
/* can't happen after shutting down the hardware */
wake_up_interruptible(&info->status_event_wait_q);
wake_up_interruptible(&info->event_wait_q);
del_timer(&info->tx_timer);
del_timer(&info->status_timer);
if (info->tx_buf) {
kfree(info->tx_buf);
info->tx_buf = NULL;
}
spin_lock_irqsave(&info->lock,flags);
reset_port(info);
if (!info->tty || info->tty->termios->c_cflag & HUPCL) {
info->serial_signals &= ~(SerialSignal_DTR + SerialSignal_RTS);
set_signals(info);
}
spin_unlock_irqrestore(&info->lock,flags);
if (info->tty)
set_bit(TTY_IO_ERROR, &info->tty->flags);
info->flags &= ~ASYNC_INITIALIZED;
}
static void program_hw(SLMP_INFO *info)
{
unsigned long flags;
spin_lock_irqsave(&info->lock,flags);
rx_stop(info);
tx_stop(info);
info->tx_count = info->tx_put = info->tx_get = 0;
if (info->params.mode == MGSL_MODE_HDLC || info->netcount)
hdlc_mode(info);
else
async_mode(info);
set_signals(info);
info->dcd_chkcount = 0;
info->cts_chkcount = 0;
info->ri_chkcount = 0;
info->dsr_chkcount = 0;
info->ie1_value |= (CDCD|CCTS);
write_reg(info, IE1, info->ie1_value);
get_signals(info);
if (info->netcount || (info->tty && info->tty->termios->c_cflag & CREAD) )
rx_start(info);
spin_unlock_irqrestore(&info->lock,flags);
}
/* Reconfigure adapter based on new parameters
*/
static void change_params(SLMP_INFO *info)
{
unsigned cflag;
int bits_per_char;
if (!info->tty || !info->tty->termios)
return;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s change_params()\n",
__FILE__,__LINE__, info->device_name );
cflag = info->tty->termios->c_cflag;
/* if B0 rate (hangup) specified then negate DTR and RTS */
/* otherwise assert DTR and RTS */
if (cflag & CBAUD)
info->serial_signals |= SerialSignal_RTS + SerialSignal_DTR;
else
info->serial_signals &= ~(SerialSignal_RTS + SerialSignal_DTR);
/* byte size and parity */
switch (cflag & CSIZE) {
case CS5: info->params.data_bits = 5; break;
case CS6: info->params.data_bits = 6; break;
case CS7: info->params.data_bits = 7; break;
case CS8: info->params.data_bits = 8; break;
/* Never happens, but GCC is too dumb to figure it out */
default: info->params.data_bits = 7; break;
}
if (cflag & CSTOPB)
info->params.stop_bits = 2;
else
info->params.stop_bits = 1;
info->params.parity = ASYNC_PARITY_NONE;
if (cflag & PARENB) {
if (cflag & PARODD)
info->params.parity = ASYNC_PARITY_ODD;
else
info->params.parity = ASYNC_PARITY_EVEN;
#ifdef CMSPAR
if (cflag & CMSPAR)
info->params.parity = ASYNC_PARITY_SPACE;
#endif
}
/* calculate number of jiffies to transmit a full
* FIFO (32 bytes) at specified data rate
*/
bits_per_char = info->params.data_bits +
info->params.stop_bits + 1;
/* if port data rate is set to 460800 or less then
* allow tty settings to override, otherwise keep the
* current data rate.
*/
if (info->params.data_rate <= 460800) {
info->params.data_rate = tty_get_baud_rate(info->tty);
}
if ( info->params.data_rate ) {
info->timeout = (32*HZ*bits_per_char) /
info->params.data_rate;
}
info->timeout += HZ/50; /* Add .02 seconds of slop */
if (cflag & CRTSCTS)
info->flags |= ASYNC_CTS_FLOW;
else
info->flags &= ~ASYNC_CTS_FLOW;
if (cflag & CLOCAL)
info->flags &= ~ASYNC_CHECK_CD;
else
info->flags |= ASYNC_CHECK_CD;
/* process tty input control flags */
info->read_status_mask2 = OVRN;
if (I_INPCK(info->tty))
info->read_status_mask2 |= PE | FRME;
if (I_BRKINT(info->tty) || I_PARMRK(info->tty))
info->read_status_mask1 |= BRKD;
if (I_IGNPAR(info->tty))
info->ignore_status_mask2 |= PE | FRME;
if (I_IGNBRK(info->tty)) {
info->ignore_status_mask1 |= BRKD;
/* If ignoring parity and break indicators, ignore
* overruns too. (For real raw support).
*/
if (I_IGNPAR(info->tty))
info->ignore_status_mask2 |= OVRN;
}
program_hw(info);
}
static int get_stats(SLMP_INFO * info, struct mgsl_icount __user *user_icount)
{
int err;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s get_params()\n",
__FILE__,__LINE__, info->device_name);
COPY_TO_USER(err,user_icount, &info->icount, sizeof(struct mgsl_icount));
if (err) {
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):%s get_stats() user buffer copy failed\n",
__FILE__,__LINE__,info->device_name);
return -EFAULT;
}
return 0;
}
static int get_params(SLMP_INFO * info, MGSL_PARAMS __user *user_params)
{
int err;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s get_params()\n",
__FILE__,__LINE__, info->device_name);
COPY_TO_USER(err,user_params, &info->params, sizeof(MGSL_PARAMS));
if (err) {
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):%s get_params() user buffer copy failed\n",
__FILE__,__LINE__,info->device_name);
return -EFAULT;
}
return 0;
}
static int set_params(SLMP_INFO * info, MGSL_PARAMS __user *new_params)
{
unsigned long flags;
MGSL_PARAMS tmp_params;
int err;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s set_params\n",
__FILE__,__LINE__,info->device_name );
COPY_FROM_USER(err,&tmp_params, new_params, sizeof(MGSL_PARAMS));
if (err) {
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):%s set_params() user buffer copy failed\n",
__FILE__,__LINE__,info->device_name);
return -EFAULT;
}
spin_lock_irqsave(&info->lock,flags);
memcpy(&info->params,&tmp_params,sizeof(MGSL_PARAMS));
spin_unlock_irqrestore(&info->lock,flags);
change_params(info);
return 0;
}
static int get_txidle(SLMP_INFO * info, int __user *idle_mode)
{
int err;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s get_txidle()=%d\n",
__FILE__,__LINE__, info->device_name, info->idle_mode);
COPY_TO_USER(err,idle_mode, &info->idle_mode, sizeof(int));
if (err) {
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):%s get_txidle() user buffer copy failed\n",
__FILE__,__LINE__,info->device_name);
return -EFAULT;
}
return 0;
}
static int set_txidle(SLMP_INFO * info, int idle_mode)
{
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s set_txidle(%d)\n",
__FILE__,__LINE__,info->device_name, idle_mode );
spin_lock_irqsave(&info->lock,flags);
info->idle_mode = idle_mode;
tx_set_idle( info );
spin_unlock_irqrestore(&info->lock,flags);
return 0;
}
static int tx_enable(SLMP_INFO * info, int enable)
{
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s tx_enable(%d)\n",
__FILE__,__LINE__,info->device_name, enable);
spin_lock_irqsave(&info->lock,flags);
if ( enable ) {
if ( !info->tx_enabled ) {
tx_start(info);
}
} else {
if ( info->tx_enabled )
tx_stop(info);
}
spin_unlock_irqrestore(&info->lock,flags);
return 0;
}
/* abort send HDLC frame
*/
static int tx_abort(SLMP_INFO * info)
{
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s tx_abort()\n",
__FILE__,__LINE__,info->device_name);
spin_lock_irqsave(&info->lock,flags);
if ( info->tx_active && info->params.mode == MGSL_MODE_HDLC ) {
info->ie1_value &= ~UDRN;
info->ie1_value |= IDLE;
write_reg(info, IE1, info->ie1_value); /* disable tx status interrupts */
write_reg(info, SR1, (unsigned char)(IDLE + UDRN)); /* clear pending */
write_reg(info, TXDMA + DSR, 0); /* disable DMA channel */
write_reg(info, TXDMA + DCMD, SWABORT); /* reset/init DMA channel */
write_reg(info, CMD, TXABORT);
}
spin_unlock_irqrestore(&info->lock,flags);
return 0;
}
static int rx_enable(SLMP_INFO * info, int enable)
{
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s rx_enable(%d)\n",
__FILE__,__LINE__,info->device_name,enable);
spin_lock_irqsave(&info->lock,flags);
if ( enable ) {
if ( !info->rx_enabled )
rx_start(info);
} else {
if ( info->rx_enabled )
rx_stop(info);
}
spin_unlock_irqrestore(&info->lock,flags);
return 0;
}
/* wait for specified event to occur
*/
static int wait_mgsl_event(SLMP_INFO * info, int __user *mask_ptr)
{
unsigned long flags;
int s;
int rc=0;
struct mgsl_icount cprev, cnow;
int events;
int mask;
struct _input_signal_events oldsigs, newsigs;
DECLARE_WAITQUEUE(wait, current);
COPY_FROM_USER(rc,&mask, mask_ptr, sizeof(int));
if (rc) {
return -EFAULT;
}
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s wait_mgsl_event(%d)\n",
__FILE__,__LINE__,info->device_name,mask);
spin_lock_irqsave(&info->lock,flags);
/* return immediately if state matches requested events */
get_signals(info);
s = info->serial_signals;
events = mask &
( ((s & SerialSignal_DSR) ? MgslEvent_DsrActive:MgslEvent_DsrInactive) +
((s & SerialSignal_DCD) ? MgslEvent_DcdActive:MgslEvent_DcdInactive) +
((s & SerialSignal_CTS) ? MgslEvent_CtsActive:MgslEvent_CtsInactive) +
((s & SerialSignal_RI) ? MgslEvent_RiActive :MgslEvent_RiInactive) );
if (events) {
spin_unlock_irqrestore(&info->lock,flags);
goto exit;
}
/* save current irq counts */
cprev = info->icount;
oldsigs = info->input_signal_events;
/* enable hunt and idle irqs if needed */
if (mask & (MgslEvent_ExitHuntMode+MgslEvent_IdleReceived)) {
unsigned char oldval = info->ie1_value;
unsigned char newval = oldval +
(mask & MgslEvent_ExitHuntMode ? FLGD:0) +
(mask & MgslEvent_IdleReceived ? IDLD:0);
if ( oldval != newval ) {
info->ie1_value = newval;
write_reg(info, IE1, info->ie1_value);
}
}
set_current_state(TASK_INTERRUPTIBLE);
add_wait_queue(&info->event_wait_q, &wait);
spin_unlock_irqrestore(&info->lock,flags);
for(;;) {
schedule();
if (signal_pending(current)) {
rc = -ERESTARTSYS;
break;
}
/* get current irq counts */
spin_lock_irqsave(&info->lock,flags);
cnow = info->icount;
newsigs = info->input_signal_events;
set_current_state(TASK_INTERRUPTIBLE);
spin_unlock_irqrestore(&info->lock,flags);
/* if no change, wait aborted for some reason */
if (newsigs.dsr_up == oldsigs.dsr_up &&
newsigs.dsr_down == oldsigs.dsr_down &&
newsigs.dcd_up == oldsigs.dcd_up &&
newsigs.dcd_down == oldsigs.dcd_down &&
newsigs.cts_up == oldsigs.cts_up &&
newsigs.cts_down == oldsigs.cts_down &&
newsigs.ri_up == oldsigs.ri_up &&
newsigs.ri_down == oldsigs.ri_down &&
cnow.exithunt == cprev.exithunt &&
cnow.rxidle == cprev.rxidle) {
rc = -EIO;
break;
}
events = mask &
( (newsigs.dsr_up != oldsigs.dsr_up ? MgslEvent_DsrActive:0) +
(newsigs.dsr_down != oldsigs.dsr_down ? MgslEvent_DsrInactive:0) +
(newsigs.dcd_up != oldsigs.dcd_up ? MgslEvent_DcdActive:0) +
(newsigs.dcd_down != oldsigs.dcd_down ? MgslEvent_DcdInactive:0) +
(newsigs.cts_up != oldsigs.cts_up ? MgslEvent_CtsActive:0) +
(newsigs.cts_down != oldsigs.cts_down ? MgslEvent_CtsInactive:0) +
(newsigs.ri_up != oldsigs.ri_up ? MgslEvent_RiActive:0) +
(newsigs.ri_down != oldsigs.ri_down ? MgslEvent_RiInactive:0) +
(cnow.exithunt != cprev.exithunt ? MgslEvent_ExitHuntMode:0) +
(cnow.rxidle != cprev.rxidle ? MgslEvent_IdleReceived:0) );
if (events)
break;
cprev = cnow;
oldsigs = newsigs;
}
remove_wait_queue(&info->event_wait_q, &wait);
set_current_state(TASK_RUNNING);
if (mask & (MgslEvent_ExitHuntMode + MgslEvent_IdleReceived)) {
spin_lock_irqsave(&info->lock,flags);
if (!waitqueue_active(&info->event_wait_q)) {
/* disable enable exit hunt mode/idle rcvd IRQs */
info->ie1_value &= ~(FLGD|IDLD);
write_reg(info, IE1, info->ie1_value);
}
spin_unlock_irqrestore(&info->lock,flags);
}
exit:
if ( rc == 0 )
PUT_USER(rc, events, mask_ptr);
return rc;
}
static int modem_input_wait(SLMP_INFO *info,int arg)
{
unsigned long flags;
int rc;
struct mgsl_icount cprev, cnow;
DECLARE_WAITQUEUE(wait, current);
/* save current irq counts */
spin_lock_irqsave(&info->lock,flags);
cprev = info->icount;
add_wait_queue(&info->status_event_wait_q, &wait);
set_current_state(TASK_INTERRUPTIBLE);
spin_unlock_irqrestore(&info->lock,flags);
for(;;) {
schedule();
if (signal_pending(current)) {
rc = -ERESTARTSYS;
break;
}
/* get new irq counts */
spin_lock_irqsave(&info->lock,flags);
cnow = info->icount;
set_current_state(TASK_INTERRUPTIBLE);
spin_unlock_irqrestore(&info->lock,flags);
/* if no change, wait aborted for some reason */
if (cnow.rng == cprev.rng && cnow.dsr == cprev.dsr &&
cnow.dcd == cprev.dcd && cnow.cts == cprev.cts) {
rc = -EIO;
break;
}
/* check for change in caller specified modem input */
if ((arg & TIOCM_RNG && cnow.rng != cprev.rng) ||
(arg & TIOCM_DSR && cnow.dsr != cprev.dsr) ||
(arg & TIOCM_CD && cnow.dcd != cprev.dcd) ||
(arg & TIOCM_CTS && cnow.cts != cprev.cts)) {
rc = 0;
break;
}
cprev = cnow;
}
remove_wait_queue(&info->status_event_wait_q, &wait);
set_current_state(TASK_RUNNING);
return rc;
}
/* return the state of the serial control and status signals
*/
static int tiocmget(struct tty_struct *tty, struct file *file)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned int result;
unsigned long flags;
spin_lock_irqsave(&info->lock,flags);
get_signals(info);
spin_unlock_irqrestore(&info->lock,flags);
result = ((info->serial_signals & SerialSignal_RTS) ? TIOCM_RTS:0) +
((info->serial_signals & SerialSignal_DTR) ? TIOCM_DTR:0) +
((info->serial_signals & SerialSignal_DCD) ? TIOCM_CAR:0) +
((info->serial_signals & SerialSignal_RI) ? TIOCM_RNG:0) +
((info->serial_signals & SerialSignal_DSR) ? TIOCM_DSR:0) +
((info->serial_signals & SerialSignal_CTS) ? TIOCM_CTS:0);
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s tiocmget() value=%08X\n",
__FILE__,__LINE__, info->device_name, result );
return result;
}
/* set modem control signals (DTR/RTS)
*/
static int tiocmset(struct tty_struct *tty, struct file *file,
unsigned int set, unsigned int clear)
{
SLMP_INFO *info = (SLMP_INFO *)tty->driver_data;
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s tiocmset(%x,%x)\n",
__FILE__,__LINE__,info->device_name, set, clear);
if (set & TIOCM_RTS)
info->serial_signals |= SerialSignal_RTS;
if (set & TIOCM_DTR)
info->serial_signals |= SerialSignal_DTR;
if (clear & TIOCM_RTS)
info->serial_signals &= ~SerialSignal_RTS;
if (clear & TIOCM_DTR)
info->serial_signals &= ~SerialSignal_DTR;
spin_lock_irqsave(&info->lock,flags);
set_signals(info);
spin_unlock_irqrestore(&info->lock,flags);
return 0;
}
/* Block the current process until the specified port is ready to open.
*/
static int block_til_ready(struct tty_struct *tty, struct file *filp,
SLMP_INFO *info)
{
DECLARE_WAITQUEUE(wait, current);
int retval;
int do_clocal = 0, extra_count = 0;
unsigned long flags;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s block_til_ready()\n",
__FILE__,__LINE__, tty->driver->name );
if (filp->f_flags & O_NONBLOCK || tty->flags & (1 << TTY_IO_ERROR)){
/* nonblock mode is set or port is not enabled */
/* just verify that callout device is not active */
info->flags |= ASYNC_NORMAL_ACTIVE;
return 0;
}
if (tty->termios->c_cflag & CLOCAL)
do_clocal = 1;
/* Wait for carrier detect and the line to become
* free (i.e., not in use by the callout). While we are in
* this loop, info->count is dropped by one, so that
* close() knows when to free things. We restore it upon
* exit, either normal or abnormal.
*/
retval = 0;
add_wait_queue(&info->open_wait, &wait);
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s block_til_ready() before block, count=%d\n",
__FILE__,__LINE__, tty->driver->name, info->count );
spin_lock_irqsave(&info->lock, flags);
if (!tty_hung_up_p(filp)) {
extra_count = 1;
info->count--;
}
spin_unlock_irqrestore(&info->lock, flags);
info->blocked_open++;
while (1) {
if ((tty->termios->c_cflag & CBAUD)) {
spin_lock_irqsave(&info->lock,flags);
info->serial_signals |= SerialSignal_RTS + SerialSignal_DTR;
set_signals(info);
spin_unlock_irqrestore(&info->lock,flags);
}
set_current_state(TASK_INTERRUPTIBLE);
if (tty_hung_up_p(filp) || !(info->flags & ASYNC_INITIALIZED)){
retval = (info->flags & ASYNC_HUP_NOTIFY) ?
-EAGAIN : -ERESTARTSYS;
break;
}
spin_lock_irqsave(&info->lock,flags);
get_signals(info);
spin_unlock_irqrestore(&info->lock,flags);
if (!(info->flags & ASYNC_CLOSING) &&
(do_clocal || (info->serial_signals & SerialSignal_DCD)) ) {
break;
}
if (signal_pending(current)) {
retval = -ERESTARTSYS;
break;
}
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s block_til_ready() count=%d\n",
__FILE__,__LINE__, tty->driver->name, info->count );
schedule();
}
set_current_state(TASK_RUNNING);
remove_wait_queue(&info->open_wait, &wait);
if (extra_count)
info->count++;
info->blocked_open--;
if (debug_level >= DEBUG_LEVEL_INFO)
printk("%s(%d):%s block_til_ready() after, count=%d\n",
__FILE__,__LINE__, tty->driver->name, info->count );
if (!retval)
info->flags |= ASYNC_NORMAL_ACTIVE;
return retval;
}
int alloc_dma_bufs(SLMP_INFO *info)
{
unsigned short BuffersPerFrame;
unsigned short BufferCount;
// Force allocation to start at 64K boundary for each port.
// This is necessary because *all* buffer descriptors for a port
// *must* be in the same 64K block. All descriptors on a port
// share a common 'base' address (upper 8 bits of 24 bits) programmed
// into the CBP register.
info->port_array[0]->last_mem_alloc = (SCA_MEM_SIZE/4) * info->port_num;
/* Calculate the number of DMA buffers necessary to hold the */
/* largest allowable frame size. Note: If the max frame size is */
/* not an even multiple of the DMA buffer size then we need to */
/* round the buffer count per frame up one. */
BuffersPerFrame = (unsigned short)(info->max_frame_size/SCABUFSIZE);
if ( info->max_frame_size % SCABUFSIZE )
BuffersPerFrame++;
/* calculate total number of data buffers (SCABUFSIZE) possible
* in one ports memory (SCA_MEM_SIZE/4) after allocating memory
* for the descriptor list (BUFFERLISTSIZE).
*/
BufferCount = (SCA_MEM_SIZE/4 - BUFFERLISTSIZE)/SCABUFSIZE;
/* limit number of buffers to maximum amount of descriptors */
if (BufferCount > BUFFERLISTSIZE/sizeof(SCADESC))
BufferCount = BUFFERLISTSIZE/sizeof(SCADESC);
/* use enough buffers to transmit one max size frame */
info->tx_buf_count = BuffersPerFrame + 1;
/* never use more than half the available buffers for transmit */
if (info->tx_buf_count > (BufferCount/2))
info->tx_buf_count = BufferCount/2;
if (info->tx_buf_count > SCAMAXDESC)
info->tx_buf_count = SCAMAXDESC;
/* use remaining buffers for receive */
info->rx_buf_count = BufferCount - info->tx_buf_count;
if (info->rx_buf_count > SCAMAXDESC)
info->rx_buf_count = SCAMAXDESC;
if ( debug_level >= DEBUG_LEVEL_INFO )
printk("%s(%d):%s Allocating %d TX and %d RX DMA buffers.\n",
__FILE__,__LINE__, info->device_name,
info->tx_buf_count,info->rx_buf_count);
if ( alloc_buf_list( info ) < 0 ||
alloc_frame_bufs(info,
info->rx_buf_list,
info->rx_buf_list_ex,
info->rx_buf_count) < 0 ||
alloc_frame_bufs(info,
info->tx_buf_list,
info->tx_buf_list_ex,
info->tx_buf_count) < 0 ||
alloc_tmp_rx_buf(info) < 0 ) {
printk("%s(%d):%s Can't allocate DMA buffer memory\n",
__FILE__,__LINE__, info->device_name);
return -ENOMEM;
}
rx_reset_buffers( info );
return 0;
}
/* Allocate DMA buffers for the transmit and receive descriptor lists.
*/
int alloc_buf_list(SLMP_INFO *info)
{
unsigned int i;
/* build list in adapter shared memory */
info->buffer_list = info->memory_base + info->port_array[0]->last_mem_alloc;
info->buffer_list_phys = info->port_array[0]->last_mem_alloc;
info->port_array[0]->last_mem_alloc += BUFFERLISTSIZE;
memset(info->buffer_list, 0, BUFFERLISTSIZE);
/* Save virtual address pointers to the receive and */
/* transmit buffer lists. (Receive 1st). These pointers will */
/* be used by the processor to access the lists. */
info->rx_buf_list = (SCADESC *)info->buffer_list;
info->tx_buf_list = (SCADESC *)info->buffer_list;
info->tx_buf_list += info->rx_buf_count;
/* Build links for circular buffer entry lists (tx and rx)
*
* Note: links are physical addresses read by the SCA device
* to determine the next buffer entry to use.
*/
for ( i = 0; i < info->rx_buf_count; i++ ) {
/* calculate and store physical address of this buffer entry */
info->rx_buf_list_ex[i].phys_entry =
info->buffer_list_phys + (i * sizeof(SCABUFSIZE));
/* calculate and store physical address of */
/* next entry in cirular list of entries */
info->rx_buf_list[i].next = info->buffer_list_phys;
if ( i < info->rx_buf_count - 1 )
info->rx_buf_list[i].next += (i + 1) * sizeof(SCADESC);
info->rx_buf_list[i].length = SCABUFSIZE;
}
for ( i = 0; i < info->tx_buf_count; i++ ) {
/* calculate and store physical address of this buffer entry */
info->tx_buf_list_ex[i].phys_entry = info->buffer_list_phys +
((info->rx_buf_count + i) * sizeof(SCADESC));
/* calculate and store physical address of */
/* next entry in cirular list of entries */
info->tx_buf_list[i].next = info->buffer_list_phys +
info->rx_buf_count * sizeof(SCADESC);
if ( i < info->tx_buf_count - 1 )
info->tx_buf_list[i].next += (i + 1) * sizeof(SCADESC);
}
return 0;
}
/* Allocate the frame DMA buffers used by the specified buffer list.
*/
int alloc_frame_bufs(SLMP_INFO *info, SCADESC *buf_list,SCADESC_EX *buf_list_ex,int count)
{
int i;
unsigned long phys_addr;
for ( i = 0; i < count; i++ ) {
buf_list_ex[i].virt_addr = info->memory_base + info->port_array[0]->last_mem_alloc;
phys_addr = info->port_array[0]->last_mem_alloc;
info->port_array[0]->last_mem_alloc += SCABUFSIZE;
buf_list[i].buf_ptr = (unsigned short)phys_addr;
buf_list[i].buf_base = (unsigned char)(phys_addr >> 16);
}
return 0;
}
void free_dma_bufs(SLMP_INFO *info)
{
info->buffer_list = NULL;
info->rx_buf_list = NULL;
info->tx_buf_list = NULL;
}
/* allocate buffer large enough to hold max_frame_size.
* This buffer is used to pass an assembled frame to the line discipline.
*/
int alloc_tmp_rx_buf(SLMP_INFO *info)
{
info->tmp_rx_buf = kmalloc(info->max_frame_size, GFP_KERNEL);
if (info->tmp_rx_buf == NULL)
return -ENOMEM;
return 0;
}
void free_tmp_rx_buf(SLMP_INFO *info)
{
if (info->tmp_rx_buf)
kfree(info->tmp_rx_buf);
info->tmp_rx_buf = NULL;
}
int claim_resources(SLMP_INFO *info)
{
if (request_mem_region(info->phys_memory_base,SCA_MEM_SIZE,"synclinkmp") == NULL) {
printk( "%s(%d):%s mem addr conflict, Addr=%08X\n",
__FILE__,__LINE__,info->device_name, info->phys_memory_base);
info->init_error = DiagStatus_AddressConflict;
goto errout;
}
else
info->shared_mem_requested = 1;
if (request_mem_region(info->phys_lcr_base + info->lcr_offset,128,"synclinkmp") == NULL) {
printk( "%s(%d):%s lcr mem addr conflict, Addr=%08X\n",
__FILE__,__LINE__,info->device_name, info->phys_lcr_base);
info->init_error = DiagStatus_AddressConflict;
goto errout;
}
else
info->lcr_mem_requested = 1;
if (request_mem_region(info->phys_sca_base + info->sca_offset,SCA_BASE_SIZE,"synclinkmp") == NULL) {
printk( "%s(%d):%s sca mem addr conflict, Addr=%08X\n",
__FILE__,__LINE__,info->device_name, info->phys_sca_base);
info->init_error = DiagStatus_AddressConflict;
goto errout;
}
else
info->sca_base_requested = 1;
if (request_mem_region(info->phys_statctrl_base + info->statctrl_offset,SCA_REG_SIZE,"synclinkmp") == NULL) {
printk( "%s(%d):%s stat/ctrl mem addr conflict, Addr=%08X\n",
__FILE__,__LINE__,info->device_name, info->phys_statctrl_base);
info->init_error = DiagStatus_AddressConflict;
goto errout;
}
else
info->sca_statctrl_requested = 1;
info->memory_base = ioremap(info->phys_memory_base,SCA_MEM_SIZE);
if (!info->memory_base) {
printk( "%s(%d):%s Cant map shared memory, MemAddr=%08X\n",
__FILE__,__LINE__,info->device_name, info->phys_memory_base );
info->init_error = DiagStatus_CantAssignPciResources;
goto errout;
}
info->lcr_base = ioremap(info->phys_lcr_base,PAGE_SIZE);
if (!info->lcr_base) {
printk( "%s(%d):%s Cant map LCR memory, MemAddr=%08X\n",
__FILE__,__LINE__,info->device_name, info->phys_lcr_base );
info->init_error = DiagStatus_CantAssignPciResources;
goto errout;
}
info->lcr_base += info->lcr_offset;
info->sca_base = ioremap(info->phys_sca_base,PAGE_SIZE);
if (!info->sca_base) {
printk( "%s(%d):%s Cant map SCA memory, MemAddr=%08X\n",
__FILE__,__LINE__,info->device_name, info->phys_sca_base );
info->init_error = DiagStatus_CantAssignPciResources;
goto errout;
}
info->sca_base += info->sca_offset;
info->statctrl_base = ioremap(info->phys_statctrl_base,PAGE_SIZE);
if (!info->statctrl_base) {
printk( "%s(%d):%s Cant map SCA Status/Control memory, MemAddr=%08X\n",
__FILE__,__LINE__,info->device_name, info->phys_statctrl_base );
info->init_error = DiagStatus_CantAssignPciResources;
goto errout;
}
info->statctrl_base += info->statctrl_offset;
if ( !memory_test(info) ) {
printk( "%s(%d):Shared Memory Test failed for device %s MemAddr=%08X\n",
__FILE__,__LINE__,info->device_name, info->phys_memory_base );
info->init_error = DiagStatus_MemoryError;
goto errout;
}
return 0;
errout:
release_resources( info );
return -ENODEV;
}
void release_resources(SLMP_INFO *info)
{
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):%s release_resources() entry\n",
__FILE__,__LINE__,info->device_name );
if ( info->irq_requested ) {
free_irq(info->irq_level, info);
info->irq_requested = 0;
}
if ( info->shared_mem_requested ) {
release_mem_region(info->phys_memory_base,SCA_MEM_SIZE);
info->shared_mem_requested = 0;
}
if ( info->lcr_mem_requested ) {
release_mem_region(info->phys_lcr_base + info->lcr_offset,128);
info->lcr_mem_requested = 0;
}
if ( info->sca_base_requested ) {
release_mem_region(info->phys_sca_base + info->sca_offset,SCA_BASE_SIZE);
info->sca_base_requested = 0;
}
if ( info->sca_statctrl_requested ) {
release_mem_region(info->phys_statctrl_base + info->statctrl_offset,SCA_REG_SIZE);
info->sca_statctrl_requested = 0;
}
if (info->memory_base){
iounmap(info->memory_base);
info->memory_base = NULL;
}
if (info->sca_base) {
iounmap(info->sca_base - info->sca_offset);
info->sca_base=NULL;
}
if (info->statctrl_base) {
iounmap(info->statctrl_base - info->statctrl_offset);
info->statctrl_base=NULL;
}
if (info->lcr_base){
iounmap(info->lcr_base - info->lcr_offset);
info->lcr_base = NULL;
}
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):%s release_resources() exit\n",
__FILE__,__LINE__,info->device_name );
}
/* Add the specified device instance data structure to the
* global linked list of devices and increment the device count.
*/
void add_device(SLMP_INFO *info)
{
info->next_device = NULL;
info->line = synclinkmp_device_count;
sprintf(info->device_name,"ttySLM%dp%d",info->adapter_num,info->port_num);
if (info->line < MAX_DEVICES) {
if (maxframe[info->line])
info->max_frame_size = maxframe[info->line];
info->dosyncppp = dosyncppp[info->line];
}
synclinkmp_device_count++;
if ( !synclinkmp_device_list )
synclinkmp_device_list = info;
else {
SLMP_INFO *current_dev = synclinkmp_device_list;
while( current_dev->next_device )
current_dev = current_dev->next_device;
current_dev->next_device = info;
}
if ( info->max_frame_size < 4096 )
info->max_frame_size = 4096;
else if ( info->max_frame_size > 65535 )
info->max_frame_size = 65535;
printk( "SyncLink MultiPort %s: "
"Mem=(%08x %08X %08x %08X) IRQ=%d MaxFrameSize=%u\n",
info->device_name,
info->phys_sca_base,
info->phys_memory_base,
info->phys_statctrl_base,
info->phys_lcr_base,
info->irq_level,
info->max_frame_size );
#ifdef CONFIG_HDLC
hdlcdev_init(info);
#endif
}
/* Allocate and initialize a device instance structure
*
* Return Value: pointer to SLMP_INFO if success, otherwise NULL
*/
static SLMP_INFO *alloc_dev(int adapter_num, int port_num, struct pci_dev *pdev)
{
SLMP_INFO *info;
info = (SLMP_INFO *)kmalloc(sizeof(SLMP_INFO),
GFP_KERNEL);
if (!info) {
printk("%s(%d) Error can't allocate device instance data for adapter %d, port %d\n",
__FILE__,__LINE__, adapter_num, port_num);
} else {
memset(info, 0, sizeof(SLMP_INFO));
info->magic = MGSL_MAGIC;
INIT_WORK(&info->task, bh_handler, info);
info->max_frame_size = 4096;
info->close_delay = 5*HZ/10;
info->closing_wait = 30*HZ;
init_waitqueue_head(&info->open_wait);
init_waitqueue_head(&info->close_wait);
init_waitqueue_head(&info->status_event_wait_q);
init_waitqueue_head(&info->event_wait_q);
spin_lock_init(&info->netlock);
memcpy(&info->params,&default_params,sizeof(MGSL_PARAMS));
info->idle_mode = HDLC_TXIDLE_FLAGS;
info->adapter_num = adapter_num;
info->port_num = port_num;
/* Copy configuration info to device instance data */
info->irq_level = pdev->irq;
info->phys_lcr_base = pci_resource_start(pdev,0);
info->phys_sca_base = pci_resource_start(pdev,2);
info->phys_memory_base = pci_resource_start(pdev,3);
info->phys_statctrl_base = pci_resource_start(pdev,4);
/* Because veremap only works on page boundaries we must map
* a larger area than is actually implemented for the LCR
* memory range. We map a full page starting at the page boundary.
*/
info->lcr_offset = info->phys_lcr_base & (PAGE_SIZE-1);
info->phys_lcr_base &= ~(PAGE_SIZE-1);
info->sca_offset = info->phys_sca_base & (PAGE_SIZE-1);
info->phys_sca_base &= ~(PAGE_SIZE-1);
info->statctrl_offset = info->phys_statctrl_base & (PAGE_SIZE-1);
info->phys_statctrl_base &= ~(PAGE_SIZE-1);
info->bus_type = MGSL_BUS_TYPE_PCI;
info->irq_flags = SA_SHIRQ;
init_timer(&info->tx_timer);
info->tx_timer.data = (unsigned long)info;
info->tx_timer.function = tx_timeout;
init_timer(&info->status_timer);
info->status_timer.data = (unsigned long)info;
info->status_timer.function = status_timeout;
/* Store the PCI9050 misc control register value because a flaw
* in the PCI9050 prevents LCR registers from being read if
* BIOS assigns an LCR base address with bit 7 set.
*
* Only the misc control register is accessed for which only
* write access is needed, so set an initial value and change
* bits to the device instance data as we write the value
* to the actual misc control register.
*/
info->misc_ctrl_value = 0x087e4546;
/* initial port state is unknown - if startup errors
* occur, init_error will be set to indicate the
* problem. Once the port is fully initialized,
* this value will be set to 0 to indicate the
* port is available.
*/
info->init_error = -1;
}
return info;
}
void device_init(int adapter_num, struct pci_dev *pdev)
{
SLMP_INFO *port_array[SCA_MAX_PORTS];
int port;
/* allocate device instances for up to SCA_MAX_PORTS devices */
for ( port = 0; port < SCA_MAX_PORTS; ++port ) {
port_array[port] = alloc_dev(adapter_num,port,pdev);
if( port_array[port] == NULL ) {
for ( --port; port >= 0; --port )
kfree(port_array[port]);
return;
}
}
/* give copy of port_array to all ports and add to device list */
for ( port = 0; port < SCA_MAX_PORTS; ++port ) {
memcpy(port_array[port]->port_array,port_array,sizeof(port_array));
add_device( port_array[port] );
spin_lock_init(&port_array[port]->lock);
}
/* Allocate and claim adapter resources */
if ( !claim_resources(port_array[0]) ) {
alloc_dma_bufs(port_array[0]);
/* copy resource information from first port to others */
for ( port = 1; port < SCA_MAX_PORTS; ++port ) {
port_array[port]->lock = port_array[0]->lock;
port_array[port]->irq_level = port_array[0]->irq_level;
port_array[port]->memory_base = port_array[0]->memory_base;
port_array[port]->sca_base = port_array[0]->sca_base;
port_array[port]->statctrl_base = port_array[0]->statctrl_base;
port_array[port]->lcr_base = port_array[0]->lcr_base;
alloc_dma_bufs(port_array[port]);
}
if ( request_irq(port_array[0]->irq_level,
synclinkmp_interrupt,
port_array[0]->irq_flags,
port_array[0]->device_name,
port_array[0]) < 0 ) {
printk( "%s(%d):%s Cant request interrupt, IRQ=%d\n",
__FILE__,__LINE__,
port_array[0]->device_name,
port_array[0]->irq_level );
}
else {
port_array[0]->irq_requested = 1;
adapter_test(port_array[0]);
}
}
}
static struct tty_operations ops = {
.open = open,
.close = close,
.write = write,
.put_char = put_char,
.flush_chars = flush_chars,
.write_room = write_room,
.chars_in_buffer = chars_in_buffer,
.flush_buffer = flush_buffer,
.ioctl = ioctl,
.throttle = throttle,
.unthrottle = unthrottle,
.send_xchar = send_xchar,
.break_ctl = set_break,
.wait_until_sent = wait_until_sent,
.read_proc = read_proc,
.set_termios = set_termios,
.stop = tx_hold,
.start = tx_release,
.hangup = hangup,
.tiocmget = tiocmget,
.tiocmset = tiocmset,
};
static void synclinkmp_cleanup(void)
{
int rc;
SLMP_INFO *info;
SLMP_INFO *tmp;
printk("Unloading %s %s\n", driver_name, driver_version);
if (serial_driver) {
if ((rc = tty_unregister_driver(serial_driver)))
printk("%s(%d) failed to unregister tty driver err=%d\n",
__FILE__,__LINE__,rc);
put_tty_driver(serial_driver);
}
/* reset devices */
info = synclinkmp_device_list;
while(info) {
reset_port(info);
info = info->next_device;
}
/* release devices */
info = synclinkmp_device_list;
while(info) {
#ifdef CONFIG_HDLC
hdlcdev_exit(info);
#endif
free_dma_bufs(info);
free_tmp_rx_buf(info);
if ( info->port_num == 0 ) {
if (info->sca_base)
write_reg(info, LPR, 1); /* set low power mode */
release_resources(info);
}
tmp = info;
info = info->next_device;
kfree(tmp);
}
pci_unregister_driver(&synclinkmp_pci_driver);
}
/* Driver initialization entry point.
*/
static int __init synclinkmp_init(void)
{
int rc;
if (break_on_load) {
synclinkmp_get_text_ptr();
BREAKPOINT();
}
printk("%s %s\n", driver_name, driver_version);
if ((rc = pci_register_driver(&synclinkmp_pci_driver)) < 0) {
printk("%s:failed to register PCI driver, error=%d\n",__FILE__,rc);
return rc;
}
serial_driver = alloc_tty_driver(128);
if (!serial_driver) {
rc = -ENOMEM;
goto error;
}
/* Initialize the tty_driver structure */
serial_driver->owner = THIS_MODULE;
serial_driver->driver_name = "synclinkmp";
serial_driver->name = "ttySLM";
serial_driver->major = ttymajor;
serial_driver->minor_start = 64;
serial_driver->type = TTY_DRIVER_TYPE_SERIAL;
serial_driver->subtype = SERIAL_TYPE_NORMAL;
serial_driver->init_termios = tty_std_termios;
serial_driver->init_termios.c_cflag =
B9600 | CS8 | CREAD | HUPCL | CLOCAL;
serial_driver->flags = TTY_DRIVER_REAL_RAW;
tty_set_operations(serial_driver, &ops);
if ((rc = tty_register_driver(serial_driver)) < 0) {
printk("%s(%d):Couldn't register serial driver\n",
__FILE__,__LINE__);
put_tty_driver(serial_driver);
serial_driver = NULL;
goto error;
}
printk("%s %s, tty major#%d\n",
driver_name, driver_version,
serial_driver->major);
return 0;
error:
synclinkmp_cleanup();
return rc;
}
static void __exit synclinkmp_exit(void)
{
synclinkmp_cleanup();
}
module_init(synclinkmp_init);
module_exit(synclinkmp_exit);
/* Set the port for internal loopback mode.
* The TxCLK and RxCLK signals are generated from the BRG and
* the TxD is looped back to the RxD internally.
*/
void enable_loopback(SLMP_INFO *info, int enable)
{
if (enable) {
/* MD2 (Mode Register 2)
* 01..00 CNCT<1..0> Channel Connection 11=Local Loopback
*/
write_reg(info, MD2, (unsigned char)(read_reg(info, MD2) | (BIT1 + BIT0)));
/* degate external TxC clock source */
info->port_array[0]->ctrlreg_value |= (BIT0 << (info->port_num * 2));
write_control_reg(info);
/* RXS/TXS (Rx/Tx clock source)
* 07 Reserved, must be 0
* 06..04 Clock Source, 100=BRG
* 03..00 Clock Divisor, 0000=1
*/
write_reg(info, RXS, 0x40);
write_reg(info, TXS, 0x40);
} else {
/* MD2 (Mode Register 2)
* 01..00 CNCT<1..0> Channel connection, 0=normal
*/
write_reg(info, MD2, (unsigned char)(read_reg(info, MD2) & ~(BIT1 + BIT0)));
/* RXS/TXS (Rx/Tx clock source)
* 07 Reserved, must be 0
* 06..04 Clock Source, 000=RxC/TxC Pin
* 03..00 Clock Divisor, 0000=1
*/
write_reg(info, RXS, 0x00);
write_reg(info, TXS, 0x00);
}
/* set LinkSpeed if available, otherwise default to 2Mbps */
if (info->params.clock_speed)
set_rate(info, info->params.clock_speed);
else
set_rate(info, 3686400);
}
/* Set the baud rate register to the desired speed
*
* data_rate data rate of clock in bits per second
* A data rate of 0 disables the AUX clock.
*/
void set_rate( SLMP_INFO *info, u32 data_rate )
{
u32 TMCValue;
unsigned char BRValue;
u32 Divisor=0;
/* fBRG = fCLK/(TMC * 2^BR)
*/
if (data_rate != 0) {
Divisor = 14745600/data_rate;
if (!Divisor)
Divisor = 1;
TMCValue = Divisor;
BRValue = 0;
if (TMCValue != 1 && TMCValue != 2) {
/* BRValue of 0 provides 50/50 duty cycle *only* when
* TMCValue is 1 or 2. BRValue of 1 to 9 always provides
* 50/50 duty cycle.
*/
BRValue = 1;
TMCValue >>= 1;
}
/* while TMCValue is too big for TMC register, divide
* by 2 and increment BR exponent.
*/
for(; TMCValue > 256 && BRValue < 10; BRValue++)
TMCValue >>= 1;
write_reg(info, TXS,
(unsigned char)((read_reg(info, TXS) & 0xf0) | BRValue));
write_reg(info, RXS,
(unsigned char)((read_reg(info, RXS) & 0xf0) | BRValue));
write_reg(info, TMC, (unsigned char)TMCValue);
}
else {
write_reg(info, TXS,0);
write_reg(info, RXS,0);
write_reg(info, TMC, 0);
}
}
/* Disable receiver
*/
void rx_stop(SLMP_INFO *info)
{
if (debug_level >= DEBUG_LEVEL_ISR)
printk("%s(%d):%s rx_stop()\n",
__FILE__,__LINE__, info->device_name );
write_reg(info, CMD, RXRESET);
info->ie0_value &= ~RXRDYE;
write_reg(info, IE0, info->ie0_value); /* disable Rx data interrupts */
write_reg(info, RXDMA + DSR, 0); /* disable Rx DMA */
write_reg(info, RXDMA + DCMD, SWABORT); /* reset/init Rx DMA */
write_reg(info, RXDMA + DIR, 0); /* disable Rx DMA interrupts */
info->rx_enabled = 0;
info->rx_overflow = 0;
}
/* enable the receiver
*/
void rx_start(SLMP_INFO *info)
{
int i;
if (debug_level >= DEBUG_LEVEL_ISR)
printk("%s(%d):%s rx_start()\n",
__FILE__,__LINE__, info->device_name );
write_reg(info, CMD, RXRESET);
if ( info->params.mode == MGSL_MODE_HDLC ) {
/* HDLC, disabe IRQ on rxdata */
info->ie0_value &= ~RXRDYE;
write_reg(info, IE0, info->ie0_value);
/* Reset all Rx DMA buffers and program rx dma */
write_reg(info, RXDMA + DSR, 0); /* disable Rx DMA */
write_reg(info, RXDMA + DCMD, SWABORT); /* reset/init Rx DMA */
for (i = 0; i < info->rx_buf_count; i++) {
info->rx_buf_list[i].status = 0xff;
// throttle to 4 shared memory writes at a time to prevent
// hogging local bus (keep latency time for DMA requests low).
if (!(i % 4))
read_status_reg(info);
}
info->current_rx_buf = 0;
/* set current/1st descriptor address */
write_reg16(info, RXDMA + CDA,
info->rx_buf_list_ex[0].phys_entry);
/* set new last rx descriptor address */
write_reg16(info, RXDMA + EDA,
info->rx_buf_list_ex[info->rx_buf_count - 1].phys_entry);
/* set buffer length (shared by all rx dma data buffers) */
write_reg16(info, RXDMA + BFL, SCABUFSIZE);
write_reg(info, RXDMA + DIR, 0x60); /* enable Rx DMA interrupts (EOM/BOF) */
write_reg(info, RXDMA + DSR, 0xf2); /* clear Rx DMA IRQs, enable Rx DMA */
} else {
/* async, enable IRQ on rxdata */
info->ie0_value |= RXRDYE;
write_reg(info, IE0, info->ie0_value);
}
write_reg(info, CMD, RXENABLE);
info->rx_overflow = FALSE;
info->rx_enabled = 1;
}
/* Enable the transmitter and send a transmit frame if
* one is loaded in the DMA buffers.
*/
void tx_start(SLMP_INFO *info)
{
if (debug_level >= DEBUG_LEVEL_ISR)
printk("%s(%d):%s tx_start() tx_count=%d\n",
__FILE__,__LINE__, info->device_name,info->tx_count );
if (!info->tx_enabled ) {
write_reg(info, CMD, TXRESET);
write_reg(info, CMD, TXENABLE);
info->tx_enabled = TRUE;
}
if ( info->tx_count ) {
/* If auto RTS enabled and RTS is inactive, then assert */
/* RTS and set a flag indicating that the driver should */
/* negate RTS when the transmission completes. */
info->drop_rts_on_tx_done = 0;
if (info->params.mode != MGSL_MODE_ASYNC) {
if ( info->params.flags & HDLC_FLAG_AUTO_RTS ) {
get_signals( info );
if ( !(info->serial_signals & SerialSignal_RTS) ) {
info->serial_signals |= SerialSignal_RTS;
set_signals( info );
info->drop_rts_on_tx_done = 1;
}
}
write_reg16(info, TRC0,
(unsigned short)(((tx_negate_fifo_level-1)<<8) + tx_active_fifo_level));
write_reg(info, TXDMA + DSR, 0); /* disable DMA channel */
write_reg(info, TXDMA + DCMD, SWABORT); /* reset/init DMA channel */
/* set TX CDA (current descriptor address) */
write_reg16(info, TXDMA + CDA,
info->tx_buf_list_ex[0].phys_entry);
/* set TX EDA (last descriptor address) */
write_reg16(info, TXDMA + EDA,
info->tx_buf_list_ex[info->last_tx_buf].phys_entry);
/* enable underrun IRQ */
info->ie1_value &= ~IDLE;
info->ie1_value |= UDRN;
write_reg(info, IE1, info->ie1_value);
write_reg(info, SR1, (unsigned char)(IDLE + UDRN));
write_reg(info, TXDMA + DIR, 0x40); /* enable Tx DMA interrupts (EOM) */
write_reg(info, TXDMA + DSR, 0xf2); /* clear Tx DMA IRQs, enable Tx DMA */
info->tx_timer.expires = jiffies + msecs_to_jiffies(5000);
add_timer(&info->tx_timer);
}
else {
tx_load_fifo(info);
/* async, enable IRQ on txdata */
info->ie0_value |= TXRDYE;
write_reg(info, IE0, info->ie0_value);
}
info->tx_active = 1;
}
}
/* stop the transmitter and DMA
*/
void tx_stop( SLMP_INFO *info )
{
if (debug_level >= DEBUG_LEVEL_ISR)
printk("%s(%d):%s tx_stop()\n",
__FILE__,__LINE__, info->device_name );
del_timer(&info->tx_timer);
write_reg(info, TXDMA + DSR, 0); /* disable DMA channel */
write_reg(info, TXDMA + DCMD, SWABORT); /* reset/init DMA channel */
write_reg(info, CMD, TXRESET);
info->ie1_value &= ~(UDRN + IDLE);
write_reg(info, IE1, info->ie1_value); /* disable tx status interrupts */
write_reg(info, SR1, (unsigned char)(IDLE + UDRN)); /* clear pending */
info->ie0_value &= ~TXRDYE;
write_reg(info, IE0, info->ie0_value); /* disable tx data interrupts */
info->tx_enabled = 0;
info->tx_active = 0;
}
/* Fill the transmit FIFO until the FIFO is full or
* there is no more data to load.
*/
void tx_load_fifo(SLMP_INFO *info)
{
u8 TwoBytes[2];
/* do nothing is now tx data available and no XON/XOFF pending */
if ( !info->tx_count && !info->x_char )
return;
/* load the Transmit FIFO until FIFOs full or all data sent */
while( info->tx_count && (read_reg(info,SR0) & BIT1) ) {
/* there is more space in the transmit FIFO and */
/* there is more data in transmit buffer */
if ( (info->tx_count > 1) && !info->x_char ) {
/* write 16-bits */
TwoBytes[0] = info->tx_buf[info->tx_get++];
if (info->tx_get >= info->max_frame_size)
info->tx_get -= info->max_frame_size;
TwoBytes[1] = info->tx_buf[info->tx_get++];
if (info->tx_get >= info->max_frame_size)
info->tx_get -= info->max_frame_size;
write_reg16(info, TRB, *((u16 *)TwoBytes));
info->tx_count -= 2;
info->icount.tx += 2;
} else {
/* only 1 byte left to transmit or 1 FIFO slot left */
if (info->x_char) {
/* transmit pending high priority char */
write_reg(info, TRB, info->x_char);
info->x_char = 0;
} else {
write_reg(info, TRB, info->tx_buf[info->tx_get++]);
if (info->tx_get >= info->max_frame_size)
info->tx_get -= info->max_frame_size;
info->tx_count--;
}
info->icount.tx++;
}
}
}
/* Reset a port to a known state
*/
void reset_port(SLMP_INFO *info)
{
if (info->sca_base) {
tx_stop(info);
rx_stop(info);
info->serial_signals &= ~(SerialSignal_DTR + SerialSignal_RTS);
set_signals(info);
/* disable all port interrupts */
info->ie0_value = 0;
info->ie1_value = 0;
info->ie2_value = 0;
write_reg(info, IE0, info->ie0_value);
write_reg(info, IE1, info->ie1_value);
write_reg(info, IE2, info->ie2_value);
write_reg(info, CMD, CHRESET);
}
}
/* Reset all the ports to a known state.
*/
void reset_adapter(SLMP_INFO *info)
{
int i;
for ( i=0; i < SCA_MAX_PORTS; ++i) {
if (info->port_array[i])
reset_port(info->port_array[i]);
}
}
/* Program port for asynchronous communications.
*/
void async_mode(SLMP_INFO *info)
{
unsigned char RegValue;
tx_stop(info);
rx_stop(info);
/* MD0, Mode Register 0
*
* 07..05 PRCTL<2..0>, Protocol Mode, 000=async
* 04 AUTO, Auto-enable (RTS/CTS/DCD)
* 03 Reserved, must be 0
* 02 CRCCC, CRC Calculation, 0=disabled
* 01..00 STOP<1..0> Stop bits (00=1,10=2)
*
* 0000 0000
*/
RegValue = 0x00;
if (info->params.stop_bits != 1)
RegValue |= BIT1;
write_reg(info, MD0, RegValue);
/* MD1, Mode Register 1
*
* 07..06 BRATE<1..0>, bit rate, 00=1/1 01=1/16 10=1/32 11=1/64
* 05..04 TXCHR<1..0>, tx char size, 00=8 bits,01=7,10=6,11=5
* 03..02 RXCHR<1..0>, rx char size
* 01..00 PMPM<1..0>, Parity mode, 00=none 10=even 11=odd
*
* 0100 0000
*/
RegValue = 0x40;
switch (info->params.data_bits) {
case 7: RegValue |= BIT4 + BIT2; break;
case 6: RegValue |= BIT5 + BIT3; break;
case 5: RegValue |= BIT5 + BIT4 + BIT3 + BIT2; break;
}
if (info->params.parity != ASYNC_PARITY_NONE) {
RegValue |= BIT1;
if (info->params.parity == ASYNC_PARITY_ODD)
RegValue |= BIT0;
}
write_reg(info, MD1, RegValue);
/* MD2, Mode Register 2
*
* 07..02 Reserved, must be 0
* 01..00 CNCT<1..0> Channel connection, 0=normal
*
* 0000 0000
*/
RegValue = 0x00;
write_reg(info, MD2, RegValue);
/* RXS, Receive clock source
*
* 07 Reserved, must be 0
* 06..04 RXCS<2..0>, clock source, 000=RxC Pin, 100=BRG, 110=DPLL
* 03..00 RXBR<3..0>, rate divisor, 0000=1
*/
RegValue=BIT6;
write_reg(info, RXS, RegValue);
/* TXS, Transmit clock source
*
* 07 Reserved, must be 0
* 06..04 RXCS<2..0>, clock source, 000=TxC Pin, 100=BRG, 110=Receive Clock
* 03..00 RXBR<3..0>, rate divisor, 0000=1
*/
RegValue=BIT6;
write_reg(info, TXS, RegValue);
/* Control Register
*
* 6,4,2,0 CLKSEL<3..0>, 0 = TcCLK in, 1 = Auxclk out
*/
info->port_array[0]->ctrlreg_value |= (BIT0 << (info->port_num * 2));
write_control_reg(info);
tx_set_idle(info);
/* RRC Receive Ready Control 0
*
* 07..05 Reserved, must be 0
* 04..00 RRC<4..0> Rx FIFO trigger active 0x00 = 1 byte
*/
write_reg(info, RRC, 0x00);
/* TRC0 Transmit Ready Control 0
*
* 07..05 Reserved, must be 0
* 04..00 TRC<4..0> Tx FIFO trigger active 0x10 = 16 bytes
*/
write_reg(info, TRC0, 0x10);
/* TRC1 Transmit Ready Control 1
*
* 07..05 Reserved, must be 0
* 04..00 TRC<4..0> Tx FIFO trigger inactive 0x1e = 31 bytes (full-1)
*/
write_reg(info, TRC1, 0x1e);
/* CTL, MSCI control register
*
* 07..06 Reserved, set to 0
* 05 UDRNC, underrun control, 0=abort 1=CRC+flag (HDLC/BSC)
* 04 IDLC, idle control, 0=mark 1=idle register
* 03 BRK, break, 0=off 1 =on (async)
* 02 SYNCLD, sync char load enable (BSC) 1=enabled
* 01 GOP, go active on poll (LOOP mode) 1=enabled
* 00 RTS, RTS output control, 0=active 1=inactive
*
* 0001 0001
*/
RegValue = 0x10;
if (!(info->serial_signals & SerialSignal_RTS))
RegValue |= 0x01;
write_reg(info, CTL, RegValue);
/* enable status interrupts */
info->ie0_value |= TXINTE + RXINTE;
write_reg(info, IE0, info->ie0_value);
/* enable break detect interrupt */
info->ie1_value = BRKD;
write_reg(info, IE1, info->ie1_value);
/* enable rx overrun interrupt */
info->ie2_value = OVRN;
write_reg(info, IE2, info->ie2_value);
set_rate( info, info->params.data_rate * 16 );
if (info->params.loopback)
enable_loopback(info,1);
}
/* Program the SCA for HDLC communications.
*/
void hdlc_mode(SLMP_INFO *info)
{
unsigned char RegValue;
u32 DpllDivisor;
// Can't use DPLL because SCA outputs recovered clock on RxC when
// DPLL mode selected. This causes output contention with RxC receiver.
// Use of DPLL would require external hardware to disable RxC receiver
// when DPLL mode selected.
info->params.flags &= ~(HDLC_FLAG_TXC_DPLL + HDLC_FLAG_RXC_DPLL);
/* disable DMA interrupts */
write_reg(info, TXDMA + DIR, 0);
write_reg(info, RXDMA + DIR, 0);
/* MD0, Mode Register 0
*
* 07..05 PRCTL<2..0>, Protocol Mode, 100=HDLC
* 04 AUTO, Auto-enable (RTS/CTS/DCD)
* 03 Reserved, must be 0
* 02 CRCCC, CRC Calculation, 1=enabled
* 01 CRC1, CRC selection, 0=CRC-16,1=CRC-CCITT-16
* 00 CRC0, CRC initial value, 1 = all 1s
*
* 1000 0001
*/
RegValue = 0x81;
if (info->params.flags & HDLC_FLAG_AUTO_CTS)
RegValue |= BIT4;
if (info->params.flags & HDLC_FLAG_AUTO_DCD)
RegValue |= BIT4;
if (info->params.crc_type == HDLC_CRC_16_CCITT)
RegValue |= BIT2 + BIT1;
write_reg(info, MD0, RegValue);
/* MD1, Mode Register 1
*
* 07..06 ADDRS<1..0>, Address detect, 00=no addr check
* 05..04 TXCHR<1..0>, tx char size, 00=8 bits
* 03..02 RXCHR<1..0>, rx char size, 00=8 bits
* 01..00 PMPM<1..0>, Parity mode, 00=no parity
*
* 0000 0000
*/
RegValue = 0x00;
write_reg(info, MD1, RegValue);
/* MD2, Mode Register 2
*
* 07 NRZFM, 0=NRZ, 1=FM
* 06..05 CODE<1..0> Encoding, 00=NRZ
* 04..03 DRATE<1..0> DPLL Divisor, 00=8
* 02 Reserved, must be 0
* 01..00 CNCT<1..0> Channel connection, 0=normal
*
* 0000 0000
*/
RegValue = 0x00;
switch(info->params.encoding) {
case HDLC_ENCODING_NRZI: RegValue |= BIT5; break;
case HDLC_ENCODING_BIPHASE_MARK: RegValue |= BIT7 + BIT5; break; /* aka FM1 */
case HDLC_ENCODING_BIPHASE_SPACE: RegValue |= BIT7 + BIT6; break; /* aka FM0 */
case HDLC_ENCODING_BIPHASE_LEVEL: RegValue |= BIT7; break; /* aka Manchester */
#if 0
case HDLC_ENCODING_NRZB: /* not supported */
case HDLC_ENCODING_NRZI_MARK: /* not supported */
case HDLC_ENCODING_DIFF_BIPHASE_LEVEL: /* not supported */
#endif
}
if ( info->params.flags & HDLC_FLAG_DPLL_DIV16 ) {
DpllDivisor = 16;
RegValue |= BIT3;
} else if ( info->params.flags & HDLC_FLAG_DPLL_DIV8 ) {
DpllDivisor = 8;
} else {
DpllDivisor = 32;
RegValue |= BIT4;
}
write_reg(info, MD2, RegValue);
/* RXS, Receive clock source
*
* 07 Reserved, must be 0
* 06..04 RXCS<2..0>, clock source, 000=RxC Pin, 100=BRG, 110=DPLL
* 03..00 RXBR<3..0>, rate divisor, 0000=1
*/
RegValue=0;
if (info->params.flags & HDLC_FLAG_RXC_BRG)
RegValue |= BIT6;
if (info->params.flags & HDLC_FLAG_RXC_DPLL)
RegValue |= BIT6 + BIT5;
write_reg(info, RXS, RegValue);
/* TXS, Transmit clock source
*
* 07 Reserved, must be 0
* 06..04 RXCS<2..0>, clock source, 000=TxC Pin, 100=BRG, 110=Receive Clock
* 03..00 RXBR<3..0>, rate divisor, 0000=1
*/
RegValue=0;
if (info->params.flags & HDLC_FLAG_TXC_BRG)
RegValue |= BIT6;
if (info->params.flags & HDLC_FLAG_TXC_DPLL)
RegValue |= BIT6 + BIT5;
write_reg(info, TXS, RegValue);
if (info->params.flags & HDLC_FLAG_RXC_DPLL)
set_rate(info, info->params.clock_speed * DpllDivisor);
else
set_rate(info, info->params.clock_speed);
/* GPDATA (General Purpose I/O Data Register)
*
* 6,4,2,0 CLKSEL<3..0>, 0 = TcCLK in, 1 = Auxclk out
*/
if (info->params.flags & HDLC_FLAG_TXC_BRG)
info->port_array[0]->ctrlreg_value |= (BIT0 << (info->port_num * 2));
else
info->port_array[0]->ctrlreg_value &= ~(BIT0 << (info->port_num * 2));
write_control_reg(info);
/* RRC Receive Ready Control 0
*
* 07..05 Reserved, must be 0
* 04..00 RRC<4..0> Rx FIFO trigger active
*/
write_reg(info, RRC, rx_active_fifo_level);
/* TRC0 Transmit Ready Control 0
*
* 07..05 Reserved, must be 0
* 04..00 TRC<4..0> Tx FIFO trigger active
*/
write_reg(info, TRC0, tx_active_fifo_level);
/* TRC1 Transmit Ready Control 1
*
* 07..05 Reserved, must be 0
* 04..00 TRC<4..0> Tx FIFO trigger inactive 0x1f = 32 bytes (full)
*/
write_reg(info, TRC1, (unsigned char)(tx_negate_fifo_level - 1));
/* DMR, DMA Mode Register
*
* 07..05 Reserved, must be 0
* 04 TMOD, Transfer Mode: 1=chained-block
* 03 Reserved, must be 0
* 02 NF, Number of Frames: 1=multi-frame
* 01 CNTE, Frame End IRQ Counter enable: 0=disabled
* 00 Reserved, must be 0
*
* 0001 0100
*/
write_reg(info, TXDMA + DMR, 0x14);
write_reg(info, RXDMA + DMR, 0x14);
/* Set chain pointer base (upper 8 bits of 24 bit addr) */
write_reg(info, RXDMA + CPB,
(unsigned char)(info->buffer_list_phys >> 16));
/* Set chain pointer base (upper 8 bits of 24 bit addr) */
write_reg(info, TXDMA + CPB,
(unsigned char)(info->buffer_list_phys >> 16));
/* enable status interrupts. other code enables/disables
* the individual sources for these two interrupt classes.
*/
info->ie0_value |= TXINTE + RXINTE;
write_reg(info, IE0, info->ie0_value);
/* CTL, MSCI control register
*
* 07..06 Reserved, set to 0
* 05 UDRNC, underrun control, 0=abort 1=CRC+flag (HDLC/BSC)
* 04 IDLC, idle control, 0=mark 1=idle register
* 03 BRK, break, 0=off 1 =on (async)
* 02 SYNCLD, sync char load enable (BSC) 1=enabled
* 01 GOP, go active on poll (LOOP mode) 1=enabled
* 00 RTS, RTS output control, 0=active 1=inactive
*
* 0001 0001
*/
RegValue = 0x10;
if (!(info->serial_signals & SerialSignal_RTS))
RegValue |= 0x01;
write_reg(info, CTL, RegValue);
/* preamble not supported ! */
tx_set_idle(info);
tx_stop(info);
rx_stop(info);
set_rate(info, info->params.clock_speed);
if (info->params.loopback)
enable_loopback(info,1);
}
/* Set the transmit HDLC idle mode
*/
void tx_set_idle(SLMP_INFO *info)
{
unsigned char RegValue = 0xff;
/* Map API idle mode to SCA register bits */
switch(info->idle_mode) {
case HDLC_TXIDLE_FLAGS: RegValue = 0x7e; break;
case HDLC_TXIDLE_ALT_ZEROS_ONES: RegValue = 0xaa; break;
case HDLC_TXIDLE_ZEROS: RegValue = 0x00; break;
case HDLC_TXIDLE_ONES: RegValue = 0xff; break;
case HDLC_TXIDLE_ALT_MARK_SPACE: RegValue = 0xaa; break;
case HDLC_TXIDLE_SPACE: RegValue = 0x00; break;
case HDLC_TXIDLE_MARK: RegValue = 0xff; break;
}
write_reg(info, IDL, RegValue);
}
/* Query the adapter for the state of the V24 status (input) signals.
*/
void get_signals(SLMP_INFO *info)
{
u16 status = read_reg(info, SR3);
u16 gpstatus = read_status_reg(info);
u16 testbit;
/* clear all serial signals except DTR and RTS */
info->serial_signals &= SerialSignal_DTR + SerialSignal_RTS;
/* set serial signal bits to reflect MISR */
if (!(status & BIT3))
info->serial_signals |= SerialSignal_CTS;
if ( !(status & BIT2))
info->serial_signals |= SerialSignal_DCD;
testbit = BIT1 << (info->port_num * 2); // Port 0..3 RI is GPDATA<1,3,5,7>
if (!(gpstatus & testbit))
info->serial_signals |= SerialSignal_RI;
testbit = BIT0 << (info->port_num * 2); // Port 0..3 DSR is GPDATA<0,2,4,6>
if (!(gpstatus & testbit))
info->serial_signals |= SerialSignal_DSR;
}
/* Set the state of DTR and RTS based on contents of
* serial_signals member of device context.
*/
void set_signals(SLMP_INFO *info)
{
unsigned char RegValue;
u16 EnableBit;
RegValue = read_reg(info, CTL);
if (info->serial_signals & SerialSignal_RTS)
RegValue &= ~BIT0;
else
RegValue |= BIT0;
write_reg(info, CTL, RegValue);
// Port 0..3 DTR is ctrl reg <1,3,5,7>
EnableBit = BIT1 << (info->port_num*2);
if (info->serial_signals & SerialSignal_DTR)
info->port_array[0]->ctrlreg_value &= ~EnableBit;
else
info->port_array[0]->ctrlreg_value |= EnableBit;
write_control_reg(info);
}
/*******************/
/* DMA Buffer Code */
/*******************/
/* Set the count for all receive buffers to SCABUFSIZE
* and set the current buffer to the first buffer. This effectively
* makes all buffers free and discards any data in buffers.
*/
void rx_reset_buffers(SLMP_INFO *info)
{
rx_free_frame_buffers(info, 0, info->rx_buf_count - 1);
}
/* Free the buffers used by a received frame
*
* info pointer to device instance data
* first index of 1st receive buffer of frame
* last index of last receive buffer of frame
*/
void rx_free_frame_buffers(SLMP_INFO *info, unsigned int first, unsigned int last)
{
int done = 0;
while(!done) {
/* reset current buffer for reuse */
info->rx_buf_list[first].status = 0xff;
if (first == last) {
done = 1;
/* set new last rx descriptor address */
write_reg16(info, RXDMA + EDA, info->rx_buf_list_ex[first].phys_entry);
}
first++;
if (first == info->rx_buf_count)
first = 0;
}
/* set current buffer to next buffer after last buffer of frame */
info->current_rx_buf = first;
}
/* Return a received frame from the receive DMA buffers.
* Only frames received without errors are returned.
*
* Return Value: 1 if frame returned, otherwise 0
*/
int rx_get_frame(SLMP_INFO *info)
{
unsigned int StartIndex, EndIndex; /* index of 1st and last buffers of Rx frame */
unsigned short status;
unsigned int framesize = 0;
int ReturnCode = 0;
unsigned long flags;
struct tty_struct *tty = info->tty;
unsigned char addr_field = 0xff;
SCADESC *desc;
SCADESC_EX *desc_ex;
CheckAgain:
/* assume no frame returned, set zero length */
framesize = 0;
addr_field = 0xff;
/*
* current_rx_buf points to the 1st buffer of the next available
* receive frame. To find the last buffer of the frame look for
* a non-zero status field in the buffer entries. (The status
* field is set by the 16C32 after completing a receive frame.
*/
StartIndex = EndIndex = info->current_rx_buf;
for ( ;; ) {
desc = &info->rx_buf_list[EndIndex];
desc_ex = &info->rx_buf_list_ex[EndIndex];
if (desc->status == 0xff)
goto Cleanup; /* current desc still in use, no frames available */
if (framesize == 0 && info->params.addr_filter != 0xff)
addr_field = desc_ex->virt_addr[0];
framesize += desc->length;
/* Status != 0 means last buffer of frame */
if (desc->status)
break;
EndIndex++;
if (EndIndex == info->rx_buf_count)
EndIndex = 0;
if (EndIndex == info->current_rx_buf) {
/* all buffers have been 'used' but none mark */
/* the end of a frame. Reset buffers and receiver. */
if ( info->rx_enabled ){
spin_lock_irqsave(&info->lock,flags);
rx_start(info);
spin_unlock_irqrestore(&info->lock,flags);
}
goto Cleanup;
}
}
/* check status of receive frame */
/* frame status is byte stored after frame data
*
* 7 EOM (end of msg), 1 = last buffer of frame
* 6 Short Frame, 1 = short frame
* 5 Abort, 1 = frame aborted
* 4 Residue, 1 = last byte is partial
* 3 Overrun, 1 = overrun occurred during frame reception
* 2 CRC, 1 = CRC error detected
*
*/
status = desc->status;
/* ignore CRC bit if not using CRC (bit is undefined) */
/* Note:CRC is not save to data buffer */
if (info->params.crc_type == HDLC_CRC_NONE)
status &= ~BIT2;
if (framesize == 0 ||
(addr_field != 0xff && addr_field != info->params.addr_filter)) {
/* discard 0 byte frames, this seems to occur sometime
* when remote is idling flags.
*/
rx_free_frame_buffers(info, StartIndex, EndIndex);
goto CheckAgain;
}
if (framesize < 2)
status |= BIT6;
if (status & (BIT6+BIT5+BIT3+BIT2)) {
/* received frame has errors,
* update counts and mark frame size as 0
*/
if (status & BIT6)
info->icount.rxshort++;
else if (status & BIT5)
info->icount.rxabort++;
else if (status & BIT3)
info->icount.rxover++;
else
info->icount.rxcrc++;
framesize = 0;
#ifdef CONFIG_HDLC
{
struct net_device_stats *stats = hdlc_stats(info->netdev);
stats->rx_errors++;
stats->rx_frame_errors++;
}
#endif
}
if ( debug_level >= DEBUG_LEVEL_BH )
printk("%s(%d):%s rx_get_frame() status=%04X size=%d\n",
__FILE__,__LINE__,info->device_name,status,framesize);
if ( debug_level >= DEBUG_LEVEL_DATA )
trace_block(info,info->rx_buf_list_ex[StartIndex].virt_addr,
min_t(int, framesize,SCABUFSIZE),0);
if (framesize) {
if (framesize > info->max_frame_size)
info->icount.rxlong++;
else {
/* copy dma buffer(s) to contiguous intermediate buffer */
int copy_count = framesize;
int index = StartIndex;
unsigned char *ptmp = info->tmp_rx_buf;
info->tmp_rx_buf_count = framesize;
info->icount.rxok++;
while(copy_count) {
int partial_count = min(copy_count,SCABUFSIZE);
memcpy( ptmp,
info->rx_buf_list_ex[index].virt_addr,
partial_count );
ptmp += partial_count;
copy_count -= partial_count;
if ( ++index == info->rx_buf_count )
index = 0;
}
#ifdef CONFIG_HDLC
if (info->netcount)
hdlcdev_rx(info,info->tmp_rx_buf,framesize);
else
#endif
ldisc_receive_buf(tty,info->tmp_rx_buf,
info->flag_buf, framesize);
}
}
/* Free the buffers used by this frame. */
rx_free_frame_buffers( info, StartIndex, EndIndex );
ReturnCode = 1;
Cleanup:
if ( info->rx_enabled && info->rx_overflow ) {
/* Receiver is enabled, but needs to restarted due to
* rx buffer overflow. If buffers are empty, restart receiver.
*/
if (info->rx_buf_list[EndIndex].status == 0xff) {
spin_lock_irqsave(&info->lock,flags);
rx_start(info);
spin_unlock_irqrestore(&info->lock,flags);
}
}
return ReturnCode;
}
/* load the transmit DMA buffer with data
*/
void tx_load_dma_buffer(SLMP_INFO *info, const char *buf, unsigned int count)
{
unsigned short copy_count;
unsigned int i = 0;
SCADESC *desc;
SCADESC_EX *desc_ex;
if ( debug_level >= DEBUG_LEVEL_DATA )
trace_block(info,buf, min_t(int, count,SCABUFSIZE), 1);
/* Copy source buffer to one or more DMA buffers, starting with
* the first transmit dma buffer.
*/
for(i=0;;)
{
copy_count = min_t(unsigned short,count,SCABUFSIZE);
desc = &info->tx_buf_list[i];
desc_ex = &info->tx_buf_list_ex[i];
load_pci_memory(info, desc_ex->virt_addr,buf,copy_count);
desc->length = copy_count;
desc->status = 0;
buf += copy_count;
count -= copy_count;
if (!count)
break;
i++;
if (i >= info->tx_buf_count)
i = 0;
}
info->tx_buf_list[i].status = 0x81; /* set EOM and EOT status */
info->last_tx_buf = ++i;
}
int register_test(SLMP_INFO *info)
{
static unsigned char testval[] = {0x00, 0xff, 0xaa, 0x55, 0x69, 0x96};
static unsigned int count = sizeof(testval)/sizeof(unsigned char);
unsigned int i;
int rc = TRUE;
unsigned long flags;
spin_lock_irqsave(&info->lock,flags);
reset_port(info);
/* assume failure */
info->init_error = DiagStatus_AddressFailure;
/* Write bit patterns to various registers but do it out of */
/* sync, then read back and verify values. */
for (i = 0 ; i < count ; i++) {
write_reg(info, TMC, testval[i]);
write_reg(info, IDL, testval[(i+1)%count]);
write_reg(info, SA0, testval[(i+2)%count]);
write_reg(info, SA1, testval[(i+3)%count]);
if ( (read_reg(info, TMC) != testval[i]) ||
(read_reg(info, IDL) != testval[(i+1)%count]) ||
(read_reg(info, SA0) != testval[(i+2)%count]) ||
(read_reg(info, SA1) != testval[(i+3)%count]) )
{
rc = FALSE;
break;
}
}
reset_port(info);
spin_unlock_irqrestore(&info->lock,flags);
return rc;
}
int irq_test(SLMP_INFO *info)
{
unsigned long timeout;
unsigned long flags;
unsigned char timer = (info->port_num & 1) ? TIMER2 : TIMER0;
spin_lock_irqsave(&info->lock,flags);
reset_port(info);
/* assume failure */
info->init_error = DiagStatus_IrqFailure;
info->irq_occurred = FALSE;
/* setup timer0 on SCA0 to interrupt */
/* IER2<7..4> = timer<3..0> interrupt enables (1=enabled) */
write_reg(info, IER2, (unsigned char)((info->port_num & 1) ? BIT6 : BIT4));
write_reg(info, (unsigned char)(timer + TEPR), 0); /* timer expand prescale */
write_reg16(info, (unsigned char)(timer + TCONR), 1); /* timer constant */
/* TMCS, Timer Control/Status Register
*
* 07 CMF, Compare match flag (read only) 1=match
* 06 ECMI, CMF Interrupt Enable: 1=enabled
* 05 Reserved, must be 0
* 04 TME, Timer Enable
* 03..00 Reserved, must be 0
*
* 0101 0000
*/
write_reg(info, (unsigned char)(timer + TMCS), 0x50);
spin_unlock_irqrestore(&info->lock,flags);
timeout=100;
while( timeout-- && !info->irq_occurred ) {
msleep_interruptible(10);
}
spin_lock_irqsave(&info->lock,flags);
reset_port(info);
spin_unlock_irqrestore(&info->lock,flags);
return info->irq_occurred;
}
/* initialize individual SCA device (2 ports)
*/
static int sca_init(SLMP_INFO *info)
{
/* set wait controller to single mem partition (low), no wait states */
write_reg(info, PABR0, 0); /* wait controller addr boundary 0 */
write_reg(info, PABR1, 0); /* wait controller addr boundary 1 */
write_reg(info, WCRL, 0); /* wait controller low range */
write_reg(info, WCRM, 0); /* wait controller mid range */
write_reg(info, WCRH, 0); /* wait controller high range */
/* DPCR, DMA Priority Control
*
* 07..05 Not used, must be 0
* 04 BRC, bus release condition: 0=all transfers complete
* 03 CCC, channel change condition: 0=every cycle
* 02..00 PR<2..0>, priority 100=round robin
*
* 00000100 = 0x04
*/
write_reg(info, DPCR, dma_priority);
/* DMA Master Enable, BIT7: 1=enable all channels */
write_reg(info, DMER, 0x80);
/* enable all interrupt classes */
write_reg(info, IER0, 0xff); /* TxRDY,RxRDY,TxINT,RxINT (ports 0-1) */
write_reg(info, IER1, 0xff); /* DMIB,DMIA (channels 0-3) */
write_reg(info, IER2, 0xf0); /* TIRQ (timers 0-3) */
/* ITCR, interrupt control register
* 07 IPC, interrupt priority, 0=MSCI->DMA
* 06..05 IAK<1..0>, Acknowledge cycle, 00=non-ack cycle
* 04 VOS, Vector Output, 0=unmodified vector
* 03..00 Reserved, must be 0
*/
write_reg(info, ITCR, 0);
return TRUE;
}
/* initialize adapter hardware
*/
int init_adapter(SLMP_INFO *info)
{
int i;
/* Set BIT30 of Local Control Reg 0x50 to reset SCA */
volatile u32 *MiscCtrl = (u32 *)(info->lcr_base + 0x50);
u32 readval;
info->misc_ctrl_value |= BIT30;
*MiscCtrl = info->misc_ctrl_value;
/*
* Force at least 170ns delay before clearing
* reset bit. Each read from LCR takes at least
* 30ns so 10 times for 300ns to be safe.
*/
for(i=0;i<10;i++)
readval = *MiscCtrl;
info->misc_ctrl_value &= ~BIT30;
*MiscCtrl = info->misc_ctrl_value;
/* init control reg (all DTRs off, all clksel=input) */
info->ctrlreg_value = 0xaa;
write_control_reg(info);
{
volatile u32 *LCR1BRDR = (u32 *)(info->lcr_base + 0x2c);
lcr1_brdr_value &= ~(BIT5 + BIT4 + BIT3);
switch(read_ahead_count)
{
case 16:
lcr1_brdr_value |= BIT5 + BIT4 + BIT3;
break;
case 8:
lcr1_brdr_value |= BIT5 + BIT4;
break;
case 4:
lcr1_brdr_value |= BIT5 + BIT3;
break;
case 0:
lcr1_brdr_value |= BIT5;
break;
}
*LCR1BRDR = lcr1_brdr_value;
*MiscCtrl = misc_ctrl_value;
}
sca_init(info->port_array[0]);
sca_init(info->port_array[2]);
return TRUE;
}
/* Loopback an HDLC frame to test the hardware
* interrupt and DMA functions.
*/
int loopback_test(SLMP_INFO *info)
{
#define TESTFRAMESIZE 20
unsigned long timeout;
u16 count = TESTFRAMESIZE;
unsigned char buf[TESTFRAMESIZE];
int rc = FALSE;
unsigned long flags;
struct tty_struct *oldtty = info->tty;
u32 speed = info->params.clock_speed;
info->params.clock_speed = 3686400;
info->tty = NULL;
/* assume failure */
info->init_error = DiagStatus_DmaFailure;
/* build and send transmit frame */
for (count = 0; count < TESTFRAMESIZE;++count)
buf[count] = (unsigned char)count;
memset(info->tmp_rx_buf,0,TESTFRAMESIZE);
/* program hardware for HDLC and enabled receiver */
spin_lock_irqsave(&info->lock,flags);
hdlc_mode(info);
enable_loopback(info,1);
rx_start(info);
info->tx_count = count;
tx_load_dma_buffer(info,buf,count);
tx_start(info);
spin_unlock_irqrestore(&info->lock,flags);
/* wait for receive complete */
/* Set a timeout for waiting for interrupt. */
for ( timeout = 100; timeout; --timeout ) {
msleep_interruptible(10);
if (rx_get_frame(info)) {
rc = TRUE;
break;
}
}
/* verify received frame length and contents */
if (rc == TRUE &&
( info->tmp_rx_buf_count != count ||
memcmp(buf, info->tmp_rx_buf,count))) {
rc = FALSE;
}
spin_lock_irqsave(&info->lock,flags);
reset_adapter(info);
spin_unlock_irqrestore(&info->lock,flags);
info->params.clock_speed = speed;
info->tty = oldtty;
return rc;
}
/* Perform diagnostics on hardware
*/
int adapter_test( SLMP_INFO *info )
{
unsigned long flags;
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):Testing device %s\n",
__FILE__,__LINE__,info->device_name );
spin_lock_irqsave(&info->lock,flags);
init_adapter(info);
spin_unlock_irqrestore(&info->lock,flags);
info->port_array[0]->port_count = 0;
if ( register_test(info->port_array[0]) &&
register_test(info->port_array[1])) {
info->port_array[0]->port_count = 2;
if ( register_test(info->port_array[2]) &&
register_test(info->port_array[3]) )
info->port_array[0]->port_count += 2;
}
else {
printk( "%s(%d):Register test failure for device %s Addr=%08lX\n",
__FILE__,__LINE__,info->device_name, (unsigned long)(info->phys_sca_base));
return -ENODEV;
}
if ( !irq_test(info->port_array[0]) ||
!irq_test(info->port_array[1]) ||
(info->port_count == 4 && !irq_test(info->port_array[2])) ||
(info->port_count == 4 && !irq_test(info->port_array[3]))) {
printk( "%s(%d):Interrupt test failure for device %s IRQ=%d\n",
__FILE__,__LINE__,info->device_name, (unsigned short)(info->irq_level) );
return -ENODEV;
}
if (!loopback_test(info->port_array[0]) ||
!loopback_test(info->port_array[1]) ||
(info->port_count == 4 && !loopback_test(info->port_array[2])) ||
(info->port_count == 4 && !loopback_test(info->port_array[3]))) {
printk( "%s(%d):DMA test failure for device %s\n",
__FILE__,__LINE__,info->device_name);
return -ENODEV;
}
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):device %s passed diagnostics\n",
__FILE__,__LINE__,info->device_name );
info->port_array[0]->init_error = 0;
info->port_array[1]->init_error = 0;
if ( info->port_count > 2 ) {
info->port_array[2]->init_error = 0;
info->port_array[3]->init_error = 0;
}
return 0;
}
/* Test the shared memory on a PCI adapter.
*/
int memory_test(SLMP_INFO *info)
{
static unsigned long testval[] = { 0x0, 0x55555555, 0xaaaaaaaa,
0x66666666, 0x99999999, 0xffffffff, 0x12345678 };
unsigned long count = sizeof(testval)/sizeof(unsigned long);
unsigned long i;
unsigned long limit = SCA_MEM_SIZE/sizeof(unsigned long);
unsigned long * addr = (unsigned long *)info->memory_base;
/* Test data lines with test pattern at one location. */
for ( i = 0 ; i < count ; i++ ) {
*addr = testval[i];
if ( *addr != testval[i] )
return FALSE;
}
/* Test address lines with incrementing pattern over */
/* entire address range. */
for ( i = 0 ; i < limit ; i++ ) {
*addr = i * 4;
addr++;
}
addr = (unsigned long *)info->memory_base;
for ( i = 0 ; i < limit ; i++ ) {
if ( *addr != i * 4 )
return FALSE;
addr++;
}
memset( info->memory_base, 0, SCA_MEM_SIZE );
return TRUE;
}
/* Load data into PCI adapter shared memory.
*
* The PCI9050 releases control of the local bus
* after completing the current read or write operation.
*
* While the PCI9050 write FIFO not empty, the
* PCI9050 treats all of the writes as a single transaction
* and does not release the bus. This causes DMA latency problems
* at high speeds when copying large data blocks to the shared memory.
*
* This function breaks a write into multiple transations by
* interleaving a read which flushes the write FIFO and 'completes'
* the write transation. This allows any pending DMA request to gain control
* of the local bus in a timely fasion.
*/
void load_pci_memory(SLMP_INFO *info, char* dest, const char* src, unsigned short count)
{
/* A load interval of 16 allows for 4 32-bit writes at */
/* 136ns each for a maximum latency of 542ns on the local bus.*/
unsigned short interval = count / sca_pci_load_interval;
unsigned short i;
for ( i = 0 ; i < interval ; i++ )
{
memcpy(dest, src, sca_pci_load_interval);
read_status_reg(info);
dest += sca_pci_load_interval;
src += sca_pci_load_interval;
}
memcpy(dest, src, count % sca_pci_load_interval);
}
void trace_block(SLMP_INFO *info,const char* data, int count, int xmit)
{
int i;
int linecount;
if (xmit)
printk("%s tx data:\n",info->device_name);
else
printk("%s rx data:\n",info->device_name);
while(count) {
if (count > 16)
linecount = 16;
else
linecount = count;
for(i=0;i<linecount;i++)
printk("%02X ",(unsigned char)data[i]);
for(;i<17;i++)
printk(" ");
for(i=0;i<linecount;i++) {
if (data[i]>=040 && data[i]<=0176)
printk("%c",data[i]);
else
printk(".");
}
printk("\n");
data += linecount;
count -= linecount;
}
} /* end of trace_block() */
/* called when HDLC frame times out
* update stats and do tx completion processing
*/
void tx_timeout(unsigned long context)
{
SLMP_INFO *info = (SLMP_INFO*)context;
unsigned long flags;
if ( debug_level >= DEBUG_LEVEL_INFO )
printk( "%s(%d):%s tx_timeout()\n",
__FILE__,__LINE__,info->device_name);
if(info->tx_active && info->params.mode == MGSL_MODE_HDLC) {
info->icount.txtimeout++;
}
spin_lock_irqsave(&info->lock,flags);
info->tx_active = 0;
info->tx_count = info->tx_put = info->tx_get = 0;
spin_unlock_irqrestore(&info->lock,flags);
#ifdef CONFIG_HDLC
if (info->netcount)
hdlcdev_tx_done(info);
else
#endif
bh_transmit(info);
}
/* called to periodically check the DSR/RI modem signal input status
*/
void status_timeout(unsigned long context)
{
u16 status = 0;
SLMP_INFO *info = (SLMP_INFO*)context;
unsigned long flags;
unsigned char delta;
spin_lock_irqsave(&info->lock,flags);
get_signals(info);
spin_unlock_irqrestore(&info->lock,flags);
/* check for DSR/RI state change */
delta = info->old_signals ^ info->serial_signals;
info->old_signals = info->serial_signals;
if (delta & SerialSignal_DSR)
status |= MISCSTATUS_DSR_LATCHED|(info->serial_signals&SerialSignal_DSR);
if (delta & SerialSignal_RI)
status |= MISCSTATUS_RI_LATCHED|(info->serial_signals&SerialSignal_RI);
if (delta & SerialSignal_DCD)
status |= MISCSTATUS_DCD_LATCHED|(info->serial_signals&SerialSignal_DCD);
if (delta & SerialSignal_CTS)
status |= MISCSTATUS_CTS_LATCHED|(info->serial_signals&SerialSignal_CTS);
if (status)
isr_io_pin(info,status);
info->status_timer.data = (unsigned long)info;
info->status_timer.function = status_timeout;
info->status_timer.expires = jiffies + msecs_to_jiffies(10);
add_timer(&info->status_timer);
}
/* Register Access Routines -
* All registers are memory mapped
*/
#define CALC_REGADDR() \
unsigned char * RegAddr = (unsigned char*)(info->sca_base + Addr); \
if (info->port_num > 1) \
RegAddr += 256; /* port 0-1 SCA0, 2-3 SCA1 */ \
if ( info->port_num & 1) { \
if (Addr > 0x7f) \
RegAddr += 0x40; /* DMA access */ \
else if (Addr > 0x1f && Addr < 0x60) \
RegAddr += 0x20; /* MSCI access */ \
}
unsigned char read_reg(SLMP_INFO * info, unsigned char Addr)
{
CALC_REGADDR();
return *RegAddr;
}
void write_reg(SLMP_INFO * info, unsigned char Addr, unsigned char Value)
{
CALC_REGADDR();
*RegAddr = Value;
}
u16 read_reg16(SLMP_INFO * info, unsigned char Addr)
{
CALC_REGADDR();
return *((u16 *)RegAddr);
}
void write_reg16(SLMP_INFO * info, unsigned char Addr, u16 Value)
{
CALC_REGADDR();
*((u16 *)RegAddr) = Value;
}
unsigned char read_status_reg(SLMP_INFO * info)
{
unsigned char *RegAddr = (unsigned char *)info->statctrl_base;
return *RegAddr;
}
void write_control_reg(SLMP_INFO * info)
{
unsigned char *RegAddr = (unsigned char *)info->statctrl_base;
*RegAddr = info->port_array[0]->ctrlreg_value;
}
static int __devinit synclinkmp_init_one (struct pci_dev *dev,
const struct pci_device_id *ent)
{
if (pci_enable_device(dev)) {
printk("error enabling pci device %p\n", dev);
return -EIO;
}
device_init( ++synclinkmp_adapter_count, dev );
return 0;
}
static void __devexit synclinkmp_remove_one (struct pci_dev *dev)
{
}
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